47 results on '"Insuck Baek"'
Search Results
2. Short-Wave Infrared Hyperspectral Imaging System for Nondestructive Evaluation of Powdered Food
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Geonwoo Kim, Hoonsoo Lee, Insuck Baek, Byoung-Kwan Cho, and Moon S. Kim
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Mechanical Engineering ,Engineering (miscellaneous) ,Agricultural and Biological Sciences (miscellaneous) ,Computer Science Applications - Published
- 2022
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3. Hyperspectral reflectance imaging for nondestructive evaluation of root rot in Korean ginseng (Panax ginseng Meyer)
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Eunsoo Park, Yun-Soo Kim, Mohammad Akbar Faqeerzada, Moon S. Kim, Insuck Baek, and Byoung-Kwan Cho
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Plant Science - Abstract
Root rot of Panax ginseng caused by Cylindrocarpon destructans, a soil-borne fungus is typically diagnosed by frequently checking the ginseng plants or by evaluating soil pathogens in a farm, which is a time- and cost-intensive process. Because this disease causes huge economic losses to ginseng farmers, it is important to develop reliable and non-destructive techniques for early disease detection. In this study, we developed a non-destructive method for the early detection of root rot. For this, we used crop phenotyping and analyzed biochemical information collected using the HSI technique. Soil infected with root rot was divided into sterilized and infected groups and seeded with 1-year-old ginseng plants. HSI data were collected four times during weeks 7–10 after sowing. The spectral data were analyzed and the main wavelengths were extracted using partial least squares discriminant analysis. The average model accuracy was 84% in the visible/near-infrared region (29 main wavelengths) and 95% in the short-wave infrared (19 main wavelengths). These results indicated that root rot caused a decrease in nutrient absorption, leading to a decline in photosynthetic activity and the levels of carotenoids, starch, and sucrose. Wavelengths related to phenolic compounds can also be utilized for the early prediction of root rot. The technique presented in this study can be used for the early and timely detection of root rot in ginseng in a non-destructive manner.
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- 2023
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4. Does spatial region of interest (ROI) matter in multispectral and hyperspectral imaging of segmented wheat kernels?
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Insuck Baek, Stephen R. Delwiche, and Moon S. Kim
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Pixel ,business.industry ,Multispectral image ,Sorting ,Soil Science ,Hyperspectral imaging ,Pattern recognition ,Linear discriminant analysis ,Standard deviation ,Control and Systems Engineering ,Region of interest ,Artificial intelligence ,business ,Agronomy and Crop Science ,Kernel (category theory) ,Food Science ,Mathematics - Abstract
Advances in optics technology and computational processing have brought multispectral and hyperspectral imaging to commercial sorting of fruits and vegetables, yet the application of imaging to single cereal seeds has lagged due to the enormity in numbers of seeds and challenges posed by lighting, shadowing, and seed curvature that are less problematic with larger objects. This study examined the effect of region of interest (ROI) size on the seed surface with respect to the ability to sort seed into accept and reject categories. Regions of interest (ROI) size ranged from 5 centrally located pixels arranged in a cross to all pixels (typically 100) contained in the viewed surface of a kernel. Two modeling structures were used; the first involving all 87 samples, with approximately 220 kernels per sample, in which mixture level of sound and fusarium-damaged kernels is known, but individual kernel class is unknown; and the second involving 5 samples, of which an equal number of 287 known sound and known fusarium-damaged kernels were used. Accordingly, the larger set model characterised the dispersion (by standard deviation) of kernel-to-kernel reflectance at a single representative wavelength, while the smaller set was used to develop linear discriminant analysis classification models using one to three wavelengths. With either case, it was found that the smaller ROIs should be sufficient for a two-class (accepts, rejects) structure.
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- 2021
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5. Research and Technology Trend Analysis by Big Data-Based Smart Livestock Technology: a Review
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Chang-Seop Shin, Byoung-Kwan Cho, Insuck Baek, Changyeun Mo, Yong-Hyeon Kim, Min-Jee Kim, Soon-Jung Hong, Kyoung Je Jang, Hyeon Tae Kim, and Dae-Hyun Lee
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Data collection ,business.industry ,Mechanical Engineering ,Big data ,Information technology ,Environmental economics ,Agricultural and Biological Sciences (miscellaneous) ,Computer Science Applications ,Identification (information) ,Agriculture ,Information and Communications Technology ,Livestock ,Business ,Engineering (miscellaneous) ,Productivity - Abstract
This study introduces the global research and technological trends related to various kinds of Information and Communications Technologies (ICTs) used and applied in the livestock industry by improving productivity via breeding, disease and optimal environment control, and smart business management. Prior research data was collected using “ICT,” “IoT,” “information technology (IT),” “ubiquitous technology,” “smart livestock,” and “big data” as main keywords. Most livestock farms in Korea adopt smart livestock technology that are mostly used in the 1st or 1.5th generations, while continuous developments are being carried out for technologies of the 2nd and 3rd generations. In the livestock house, camera vision, radio-frequency identification (RFID), beacon sensors, and environmental sensors are used in livestock farms and houses to collect information compiled into a database to introduce an automated system for livestock management. The data collected from each individual and farm can enable precise breeding and ultimately improve the productivity and efficiency of smart livestock systems. It is necessary to prepare a systematic system at the national level for data collection, ownership, and sharing to improve the productivity and efficiency of the smart livestock system.
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- 2021
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6. Hyperspectral imaging techniques for detection of foreign materials from fresh-cut vegetables
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Salma Sultana Tunny, Hary Kurniawan, Hanim Z. Amanah, Insuck Baek, Moon S. Kim, Diane Chan, Mohammad Akbar Faqeerzada, Collins Wakholi, and Byoung-Kwan Cho
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Horticulture ,Agronomy and Crop Science ,Food Science - Published
- 2023
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7. Determination of spectral resolutions for multispectral detection of apple bruises using visible/near-infrared hyperspectral reflectance imaging
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Insuck Baek, Changyeun Mo, Charles Eggleton, S. Andrew Gadsden, Byoung-Kwan Cho, Jianwei Qin, Diane E. Chan, and Moon S. Kim
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Plant Science - Abstract
This study demonstrates a method to select wavelength-specific spectral resolutions to optimize a line-scan hyperspectral imaging method for its intended use, which in this case was visible/near-infrared imaging-based multiple-waveband detection of apple bruises. Many earlier studies have explored important aspects of developing apple bruise detection systems, such as key wavelengths and image processing algorithms. Despite the endeavors of many, development of a real-time bruise detection system is not yet a simple task. To overcome these problems, this study investigated selection of optimal wavelength-specific spectral resolutions for detecting bruises on apples by using hyperspectral line-scan imaging with the Random Track function for non-contiguous partial readout, with two experimental parts. The first part identified key-wavelengths and the optimal number of key-wavelengths to use for detecting low-, medium-, and high-impact bruises on apples. These parameters were determined by principal component analysis (PCA) and sequential forward selection (SFS) with four classification methods. The second part determined the optimal spectral resolution for each of the key-wavelengths by selecting and evaluating 21 combinations of exposure time and key-wavelength bandwidths, and then selecting the best combination based on the bruise detection accuracies achieved by each classification method. Each of the four classification methods was found to have a different optimized resolution for high accuracy bruise detection, and the optimized resolutions also allowed for use of shorter exposure times. The results of this work can be used to help develop multispectral imaging systems that provide rapid, cost-effective post-harvest processing to identify bruised apples on commercial processing lines.
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- 2022
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8. Rapid Assessment of Fish Freshness for Multiple Supply-Chain Nodes Using Multi-Mode Spectroscopy and Fusion-Based Artificial Intelligence
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Hossein Kashani Zadeh, Mike Hardy, Mitchell Sueker, Yicong Li, Angelis Tzouchas, Nicholas MacKinnon, Gregory Bearman, Simon A. Haughey, Alireza Akhbardeh, Insuck Baek, Chansong Hwang, Jianwei Qin, Amanda M. Tabb, Rosalee S. Hellberg, Shereen Ismail, Hassan Reza, Fartash Vasefi, Moon Kim, Kouhyar Tavakolian, and Christopher T. Elliott
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fish freshness ,food quality ,shelf-life assessment ,multi-mode spectroscopy ,machine learning ,artificial intelligence ,Electrical and Electronic Engineering ,Biochemistry ,Instrumentation ,Atomic and Molecular Physics, and Optics ,Analytical Chemistry - Abstract
This study is directed towards developing a fast, non-destructive, and easy-to-use handheld multimode spectroscopic system for fish quality assessment. We apply data fusion of visible near infra-red (VIS-NIR) and short wave infra-red (SWIR) reflectance and fluorescence (FL) spectroscopy data features to classify fish from fresh to spoiled condition. Farmed Atlantic and wild coho and chinook salmon and sablefish fillets were measured. Three hundred measurement points on each of four fillets were taken every two days over 14 days for a total of 8400 measurements for each spectral mode. Multiple machine learning techniques including principal component analysis, self-organized maps, linear and quadratic discriminant analyses, k-nearest neighbors, random forest, support vector machine, and linear regression, as well as ensemble and majority voting methods, were used to explore spectroscopy data measured on fillets and to train classification models to predict freshness. Our results show that multi-mode spectroscopy achieves 95% accuracy, improving the accuracies of the FL, VIS-NIR and SWIR single-mode spectroscopies by 26, 10 and 9%, respectively. We conclude that multi-mode spectroscopy and data fusion analysis has the potential to accurately assess freshness and predict shelf life for fish fillets and recommend this study be expanded to a larger number of species in the future.
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- 2023
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9. Development of a hyperspectral imaging system for plant health monitoring in space crop production
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Jianwei Qin, Oscar Monje, Matthew R. Nugent, Joshua R. Finn, Aubrie E. O’Rourke, Ralph F. Fritsche, Insuck Baek, Diane E. Chan, and Moon S. Kim
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- 2022
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10. Determination of the viability of retinispora (Hinoki cypress) seeds using shortwave infrared hyperspectral imaging spectroscopy
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Byoung-Kwan Cho, Akbar Faqeerzada Mohammad, Hoonsoo Lee, Jayoung Lee, Changyeun Mo, Eunsoo Park, Insuck Baek, Collins Wakholi, Moon S. Kim, Hyun Kwon Suh, and Perez Mukasa
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biology ,010401 analytical chemistry ,Near-infrared spectroscopy ,Hyperspectral imaging ,02 engineering and technology ,021001 nanoscience & nanotechnology ,biology.organism_classification ,01 natural sciences ,Shortwave infrared ,0104 chemical sciences ,Imaging spectroscopy ,Environmental science ,0210 nano-technology ,Spectroscopy ,Hinoki Cypress ,Remote sensing - Abstract
The combination of hyperspectral imaging with multivariate data analysis methods has recently been applied to develop a nondestructive technique, required to determine the seed viability of artificially aged vegetable and cereal seeds. In this study, the potential of shortwave infrared hyperspectral imaging to determine the viability of naturally aged seeds was investigated and thereafter a model for online seed sorting system was developed. The hyperspectral images of 400 Hinoki cypress tree seeds were acquired, and germination tests were conducted for viability confirmation, which indicated 31.5% of the viable seeds. Partial least square discriminant analysis models with 179 variables in the wavelength region of 1000–1800 nm were developed with a maximum model accuracy of 98.4% and 93.8% in both the calibration and validation sets, respectively. The partial least square discriminant analysis beta coefficient revealed the key wavelengths to differentiate viable from nonviable seeds, determined based on the differences in the chemical compositions of the seeds, including their lipid and fatty acid contents, which may control the germination ability of the seeds. The most effective wavelengths were selected using two model-based variable selection methods (i.e., the variable importance of projection (15 variables) and the successive projections algorithm (8 variables)) to develop the model. The successive projections algorithm wavelength selection method was considered to develop a viability model, and its application to the raw data resulted in a prediction accuracy of 94.7% in the calibration set and 92.2% in the validation set. These results demonstrate the potential of shortwave infrared hyperspectral imaging spectroscopy as a powerful nondestructive method to determine the viability of Hinoki cypress seeds. This method could be applied to develop an online seed sorting system for seed companies and nurseries.
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- 2020
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11. Comparative Determination of Phenolic Compounds in
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Rahul, Joshi, Ramaraj, Sathasivam, Praveen Kumar, Jayapal, Ajay Kumar, Patel, Bao Van, Nguyen, Mohammad Akbar, Faqeerzada, Sang Un, Park, Seung Hyun, Lee, Moon S, Kim, Insuck, Baek, and Byoung-Kwan, Cho
- Abstract
The increasing interest in plant phenolic compounds in the past few years has become necessary because of their several important physicochemical properties. Thus, their identification through non-destructive methods has become crucial. This study carried out comparative non-destructive measurements of
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- 2022
12. Estimation of Cold Stress, Plant Age, and Number of Leaves in Watermelon Plants Using Image Analysis
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Shona Nabwire, Collins Wakholi, Mohammad Akbar Faqeerzada, Muhammad Akbar Andi Arief, Moon S. Kim, Insuck Baek, and Byoung-Kwan Cho
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leaf count ,chilling stress ,morphological traits ,plant age ,fungi ,Plant culture ,food and beverages ,phenomics ,Plant Science ,image processing ,SB1-1110 - Abstract
Watermelon (Citrullus lanatus) is a widely consumed, nutritious fruit, rich in water and sugars. In most crops, abiotic stresses caused by changes in temperature, moisture, etc., are a significant challenge during production. Due to the temperature sensitivity of watermelon plants, temperatures must be closely monitored and controlled when the crop is cultivated in controlled environments. Studies have found direct responses to these stresses include reductions in leaf size, number of leaves, and plant size. Stress diagnosis based on plant morphological features (e.g., shape, color, and texture) is important for phenomics studies. The purpose of this study is to classify watermelon plants exposed to low-temperature stress conditions from the normal ones using features extracted using image analysis. In addition, an attempt was made to develop a model for estimating the number of leaves and plant age (in weeks) using the extracted features. A model was developed that can classify normal and low-temperature stress watermelon plants with 100% accuracy. The R2, RMSE, and mean absolute difference (MAD) of the predictive model for the number of leaves were 0.94, 0.87, and 0.88, respectively, and the R2 and RMSE of the model for estimating the plant age were 0.92 and 0.29 weeks, respectively. The models developed in this study can be utilized in high-throughput phenotyping systems for growth monitoring and analysis of phenotypic traits during watermelon cultivation.
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- 2022
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13. Combining deep learning and fluorescence imaging to automatically identify fecal contamination on meat carcasses
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Hamed Taheri Gorji, Seyed Mojtaba Shahabi, Akshay Sharma, Lucas Q. Tande, Kaylee Husarik, Jianwei Qin, Diane E. Chan, Insuck Baek, Moon S. Kim, Nicholas MacKinnon, Jeffrey Morrow, Stanislav Sokolov, Alireza Akhbardeh, Fartash Vasefi, and Kouhyar Tavakolian
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Food Safety ,Meat ,Multidisciplinary ,Optical Imaging ,food and beverages ,Food Contamination ,Feces ,Deep Learning ,Salmonella ,Escherichia coli ,Animals ,Chickens ,Abattoirs ,Food Analysis - Abstract
Food safety and foodborne diseases are significant global public health concerns. Meat and poultry carcasses can be contaminated by pathogens like E. coli and salmonella, by contact with animal fecal matter and ingesta during slaughter and processing. Since fecal matter and ingesta can host these pathogens, detection, and excision of contaminated regions on meat surfaces is crucial. Fluorescence imaging has proven its potential for the detection of fecal residue but requires expertise to interpret. In order to be used by meat cutters without special training, automated detection is needed. This study used fluorescence imaging and deep learning algorithms to automatically detect and segment areas of fecal matter in carcass images using EfficientNet-B0 to determine which meat surface images showed fecal contamination and then U-Net to precisely segment the areas of contamination. The EfficientNet-B0 model achieved a 97.32% accuracy (precision 97.66%, recall 97.06%, specificity 97.59%, F-score 97.35%) for discriminating clean and contaminated areas on carcasses. U-Net segmented areas with fecal residue with an intersection over union (IoU) score of 89.34% (precision 92.95%, recall 95.84%, specificity 99.79%, F-score 94.37%, and AUC 99.54%). These results demonstrate that the combination of deep learning and fluorescence imaging techniques can improve food safety assurance by allowing the industry to use CSI-D fluorescence imaging to train employees in trimming carcasses as part of their Hazard Analysis Critical Control Point zero-tolerance plan.
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- 2022
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14. Remote Sensing in Field Crop Monitoring: A Comprehensive Review of Sensor Systems, Data Analyses and Recent Advances
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Emmanuel Omia, Hyungjin Bae, Eunsung Park, Moon Sung Kim, Insuck Baek, Isa Kabenge, and Byoung-Kwan Cho
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General Earth and Planetary Sciences - Abstract
The key elements that underpin food security require the adaptation of agricultural systems to support productivity increases while minimizing inputs and the adverse effects of climate change. The advances in precision agriculture over the past few years have substantially enhanced the efficiency of applying spatially variable agronomic inputs for irrigation, such as fertilizers, pesticides, seeds, and water, and we can attribute them to the increasing number of innovations that utilize new technologies that are capable of monitoring field crops for varying spatial and temporal changes. Remote sensing technology is the primary driver of success in precision agriculture, along with other technologies, such as the Internet of Things (IoT), robotic systems, weather forecasting technology, and global positioning systems (GPSs). More specifically, multispectral imaging (MSI) and hyperspectral imaging (HSI) have made the monitoring of the field crop health to aid decision making and the application of spatially and temporally variable agronomic inputs possible. Furthermore, the fusion of remotely sensed multisource data—for instance, HSI and LiDAR (light detection and ranging) data fusion—has even made it possible to monitor the changes in different parts of an individual plant. To the best of our knowledge, in most reviews on this topic, the authors focus on specific methods and/or technologies, with few or no comprehensive reviews that expose researchers, and especially students, to the vast possible range of remote sensing technologies used in agriculture. In this article, we describe/evaluate the remote sensing (RS) technologies for field crop monitoring using spectral imaging, and we provide a thorough and discipline-specific starting point for researchers of different levels by supplying sufficient details and references. We also high light strengths and drawbacks of each technology, which will help readers select the most appropriate method for their intended uses.
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- 2023
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15. Identification of Early Heat and Water Stress in Strawberry Plants Using Chlorophyll-Fluorescence Indices Extracted via Hyperspectral Images
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Mangalraj Poobalasubramanian, Eun-Sung Park, Mohammad Akbar Faqeerzada, Taehyun Kim, Moon Sung Kim, Insuck Baek, and Byoung-Kwan Cho
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Chlorophyll ,Hot Temperature ,Dehydration ,Electrical and Electronic Engineering ,strawberry ,abiotic stress ,chlorophyll-fluorescence indices ,hyperspectral image ,machine learning ,Fragaria ,Biochemistry ,Instrumentation ,Fluorescence ,Atomic and Molecular Physics, and Optics ,Analytical Chemistry - Abstract
Strawberry (Fragaria × ananassa Duch) plants are vulnerable to climatic change. The strawberry plants suffer from heat and water stress eventually, and the effects are reflected in the development and yields. In this investigation, potential chlorophyll-fluorescence-based indices were selected to detect the early heat and water stress in strawberry plants. The hyperspectral images were used to capture the fluorescence reflectance in the range of 500 nm–900 nm. From the hyperspectral cube, the region of interest (leaves) was identified, followed by the extraction of eight chlorophyll-fluorescence indices from the region of interest (leaves). These eight chlorophyll-fluorescence indices were analyzed deeply to identify the best indicators for our objective. The indices were used to develop machine-learning models to assess the performance of the indicators by accuracy assessment. The overall procedure is proposed as a new workflow for determining strawberry plants’ early heat and water stress. The proposed workflow suggests that by including all eight indices, the random-forest classifier performs well, with an accuracy of 94%. With this combination of the potential indices, namely the red-edge vegetation stress index (RVSI), chlorophyll B (Chl-b), pigment-specific simple ratio for chlorophyll B (PSSRb), and the red-edge chlorophyll index (CIREDEDGE), the gradient-boosting classifier performs well, with an accuracy of 91%. The proposed workflow works well with a limited number of training samples which is an added advantage.
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- 2022
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16. A novel hyperspectral line-scan imaging method for whole surfaces of round shaped agricultural products
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Byoung-Kwan Cho, Insuck Baek, Moon S. Kim, Changyeun Mo, Mirae Oh, Stephen Andrew Gadsden, and Charles D. Eggleton
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Surface (mathematics) ,Computer science ,business.industry ,Aperture ,010401 analytical chemistry ,3D reconstruction ,Multispectral image ,Soil Science ,Hyperspectral imaging ,Image processing ,04 agricultural and veterinary sciences ,01 natural sciences ,0104 chemical sciences ,Optics ,Optical path ,Control and Systems Engineering ,040103 agronomy & agriculture ,0401 agriculture, forestry, and fisheries ,business ,Agronomy and Crop Science ,Food Science ,Sequential quadratic programming - Abstract
The present study has developed a novel line-scan technique for hyperspectral imaging (HSI) of the whole surface of a round object. The developed system uniquely incorporates an external optical assembly of four mirrors to view a rotating round object from two opposite sides and project a combined two-view image onto the aperture of line-scan HSI camera. This allows imaging of the whole surface of the round object to detect defects located on any part of that surface. For obtaining the two side views that include the areas around the poles, the design of the optical path requires consideration of the distance from the inside mirrors to the outside mirrors, and the inclination angles of the outside mirrors. The optimum mirror distance of 171.6 mm and mirror angle of 13.24° was determined by sequential quadratic programming (SQP). The system was first calibrated using four wooden spheres of various sizes and was demonstrated for potential whole-surface imaging of round-shaped fruits by scanning 101 apples each marked with six simulated defects at known positions across the fruit surface. By using 3D reconstruction images, the system was able to accurately detect all six dots on 78% of the apples, but detected 5 dots (undercounted) and 7 dots (overcounted) on 4% and 18% of the apples, respectively. The image processing algorithm investigated in this study will be used to develop real-time multispectral systems for whole-surface quality evaluation of rounded objects in the agro-food sector.
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- 2019
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17. Review: Application of Artificial Intelligence in Phenomics
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Byoung-Kwan Cho, Moon S. Kim, Insuck Baek, Hyun-Kwon Suh, and Shona Nabwire
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0106 biological sciences ,Computer science ,Emerging technologies ,TP1-1185 ,Review ,01 natural sciences ,Biochemistry ,Field (computer science) ,Analytical Chemistry ,Machine Learning ,03 medical and health sciences ,plant phenomics ,Software ,Phenomics ,Artificial Intelligence ,Electrical and Electronic Engineering ,Plant traits ,Instrumentation ,030304 developmental biology ,0303 health sciences ,Data collection ,business.industry ,Deep learning ,Chemical technology ,high throughput phenotyping ,deep learning ,field phenotyping ,Plant phenotyping ,Atomic and Molecular Physics, and Optics ,Phenotype ,Artificial intelligence ,image-based phenotyping ,business ,010606 plant biology & botany - Abstract
Plant phenomics has been rapidly advancing over the past few years. This advancement is attributed to the increased innovation and availability of new technologies which can enable the high-throughput phenotyping of complex plant traits. The application of artificial intelligence in various domains of science has also grown exponentially in recent years. Notably, the computer vision, machine learning, and deep learning aspects of artificial intelligence have been successfully integrated into non-invasive imaging techniques. This integration is gradually improving the efficiency of data collection and analysis through the application of machine and deep learning for robust image analysis. In addition, artificial intelligence has fostered the development of software and tools applied in field phenotyping for data collection and management. These include open-source devices and tools which are enabling community driven research and data-sharing, thereby availing the large amounts of data required for the accurate study of phenotypes. This paper reviews more than one hundred current state-of-the-art papers concerning AI-applied plant phenotyping published between 2010 and 2020. It provides an overview of current phenotyping technologies and the ongoing integration of artificial intelligence into plant phenotyping. Lastly, the limitations of the current approaches/methods and future directions are discussed.
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- 2021
18. Detection of fabricated eggs using Fourier transform infrared (FT-IR) spectroscopy coupled with multivariate classification techniques
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Ritu Joshi, Insuck Baek, Rahul Joshi, Moon S. Kim, and Byoung-Kwan Cho
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Condensed Matter Physics ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials - Published
- 2022
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19. Multimode hyperspectral data fusion for fish species identification using supervised and reinforcement learning
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Alireza Akhbardeh, Kouhyar Tavakolian, Walter F. Schmidt, Ayse Gamze Yilmaz, Chansong Hwang, Insuck Baek, Nicholas B. Mackinnon, Ray Duran, Jianwei Qin, Rachel B. Isaacs, Fartash Vasefi, Moon S. Kim, and Rosalee S. Hellberg
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medicine.medical_specialty ,Multi-mode optical fiber ,Spectral signature ,business.industry ,Computer science ,Dimensionality reduction ,Data classification ,Hyperspectral imaging ,Pattern recognition ,Sensor fusion ,Spectral imaging ,medicine ,Artificial intelligence ,Spectroscopy ,business - Abstract
Our goal is to use multiple spectroscopy methods in a single system and develop novel multimode spectroscopic data fusion techniques for fish species identification in real-time. We collected spectral signatures of fish fillets from six fish species using four hyperspectral imaging systems: (1) Reflectance spectral imaging in the visible and NIR (VIS-NIR), (2) Reflectance spectral imaging in the short wave infrared (SWIR), (3) Fluorescence visible spectral imaging with UVA and violet excitation, (4) Raman imaging with a 785 nm laser excitation. All fish fillet samples were confirmed by DNA testing. We built multiple classification/ dimension reduction combination methods to calculate the average sensitivity and associated variance for each class and each spectroscopy mode. In our prototype, the derived statistics are used to form policies for Monte Carlo prediction reinforcement learning. We compared the results of our weighted fusion decisions against individual spectroscopy mode decisions to show an overall sensitivity improvement. We believe this is the first reported use of reinforcement learning applied to multimode spectroscopy data classification in food fraud applications.
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- 2020
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20. Inspecting species and freshness of fish fillets using multimode hyperspectral imaging techniques
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Moon S. Kim, Jianwei Qin, Alireza Akhbardeh, Rachel B. Isaacs, Fartash Vasefi, Chansong Hwang, Rosalee S. Hellberg, Ayse Gamze Yilmaz, Walter F. Schmidt, and Insuck Baek
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Principal component analysis ,Fish species ,Species classification ,Environmental science ,%22">Fish ,Hyperspectral imaging ,Spectral data ,Reflectivity ,VNIR ,Remote sensing - Abstract
This study developed multimode hyperspectral imaging techniques to detect substitution and mislabeling of fish fillets. Line-scan hyperspectral images were collected from fish fillets in four modes, including reflectance in visible and nearinfrared (VNIR) region, fluorescence by 365 nm UV excitation, reflectance in short-wave infrared (SWIR) region, and Raman by 785 nm laser excitation. Fish fillets of six species (i.e., red snapper, vermilion snapper, Malabar snapper, summer flounder, white bass, and tilapia) were used for species differentiation and frozen-thawed red snapper fillets were used for freshness evaluation. A total of 24 machine learning classifiers were used for fish species and freshness classifications using four types of spectral data in three different subsets (i.e., full spectra, first ten components of principal component analysis, and bands selected by a sequential feature selection method). The highest accuracies were achieved at 100% using full VNIR reflectance spectra for the species classification and 99.9% using full SWIR reflectance spectra for the freshness classification. The VNIR reflectance mode gave an overall best performance for both species and freshness inspection.
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- 2020
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21. Comparative Determination of Phenolic Compounds in Arabidopsis thaliana Leaf Powder under Distinct Stress Conditions Using Fourier-Transform Infrared (FT-IR) and Near-Infrared (FT-NIR) Spectroscopy
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Rahul Joshi, Ramaraj Sathasivam, Praveen Kumar Jayapal, Ajay Kumar Patel, Bao Van Nguyen, Mohammad Akbar Faqeerzada, Sang Un Park, Seung Hyun Lee, Moon S. Kim, Insuck Baek, and Byoung-Kwan Cho
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Ecology ,Arabidopsis thaliana ,phenolic compounds ,Fourier-transform IR and NIR spectroscopy ,non-destructive ,Plant Science ,Ecology, Evolution, Behavior and Systematics - Abstract
The increasing interest in plant phenolic compounds in the past few years has become necessary because of their several important physicochemical properties. Thus, their identification through non-destructive methods has become crucial. This study carried out comparative non-destructive measurements of Arabidopsis thaliana leaf powder sample phenolic compounds using Fourier-transform infrared and near-infrared spectroscopic techniques under six distinct stress conditions. The prediction analysis of 600 leaf powder samples under different stress conditions (LED lights and drought) was performed using PLSR, PCR, and NAS-based HLA/GO regression analysis methods. The results obtained through FT-NIR spectroscopy yielded the highest correlation coefficient (Rp2) value of 0.999, with a minimum error (RMSEP) value of 0.003 mg/g, based on the PLSR model using the MSC preprocessing method, which was slightly better than the correlation coefficient (Rp2) value of 0.980 with an error (RMSEP) value of 0.055 mg/g for FT-IR spectroscopy. Additionally, beta coefficient plots present spectral differences and the identification of important spectral signatures sensitive to the phenolic compounds in the measured powdered samples. Thus, the obtained results demonstrated that FT-NIR spectroscopy combined with partial least squares regression (PLSR) and suitable preprocessing method has a solid potential for non-destructively predicting phenolic compounds in Arabidopsis thaliana leaf powder samples.
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- 2022
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22. Nondestructive discrimination of seedless from seeded watermelon seeds by using multivariate and deep learning image analysis
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Perez Mukasa, Collins Wakholi, Mohammad Akbar Faqeerzada, Hanim Z. Amanah, Hangi Kim, Rahul Joshi, Hyun-Kwon Suh, Geonwoo Kim, Hoonsoo Lee, Moon S. Kim, Insuck Baek, and Byoung-Kwan Cho
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Forestry ,Horticulture ,Agronomy and Crop Science ,Computer Science Applications - Published
- 2022
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23. Analysis of RGB Plant Images to Identify Root Rot Disease in Korean Ginseng Plants Using Deep Learning
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Praveen Kumar Jayapal, Eunsoo Park, Mohammad Akbar Faqeerzada, Yun-Soo Kim, Hanki Kim, Insuck Baek, Moon S. Kim, Domnic Sandanam, and Byoung-Kwan Cho
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Fluid Flow and Transfer Processes ,Korean ginseng ,root-rot-disease ,plant segmentation ,deep learning ,Process Chemistry and Technology ,fungi ,General Engineering ,food and beverages ,General Materials Science ,macromolecular substances ,complex mixtures ,Instrumentation ,Computer Science Applications - Abstract
Ginseng is an important medicinal plant in Korea. The roots of the ginseng plant have medicinal properties; thus, it is very important to maintain the quality of ginseng roots. Root rot disease is a major disease that affects the quality of ginseng roots. It is important to predict this disease before it causes severe damage to the plants. Hence, there is a need for a non-destructive method to identify root rot disease in ginseng plants. In this paper, a method to identify the root rot disease by analyzing the RGB plant images using image processing and deep learning is proposed. Initially, plant segmentation is performed, and then the noise regions are removed in the plant images. These images are given as input to the proposed linear deep learning model to identify root rot disease in ginseng plants. Transfer learning models are also applied to these images. The performance of the proposed method is promising in identifying root rot disease.
- Published
- 2022
- Full Text
- View/download PDF
24. Multispectral Wavebands Selection for the Detection of Potential Foreign Materials in Fresh-Cut Vegetables
- Author
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Salma Sultana Tunny, Hanim Z. Amanah, Mohammad Akbar Faqeerzada, Collins Wakholi, Moon S. Kim, Insuck Baek, and Byoung-Kwan Cho
- Subjects
Spectroscopy, Near-Infrared ,Vegetables ,Least-Squares Analysis ,Electrical and Electronic Engineering ,Biochemistry ,Instrumentation ,fresh-cut vegetables ,foreign materials ,near infrared spectroscopy ,waveband selection ,Algorithms ,Atomic and Molecular Physics, and Optics ,Analytical Chemistry - Abstract
Ensuring the quality of fresh-cut vegetables is the greatest challenge for the food industry and is equally as important to consumers (and their health). Several investigations have proven the necessity of advanced technology for detecting foreign materials (FMs) in fresh-cut vegetables. In this study, the possibility of using near infrared spectral analysis as a potential technique was investigated to identify various types of FMs in seven common fresh-cut vegetables by selecting important wavebands. Various waveband selection methods, such as the weighted regression coefficient (WRC), variable importance in projection (VIP), sequential feature selection (SFS), successive projection algorithm (SPA), and interval PLS (iPLS), were used to investigate the optimal multispectral wavebands to classify the FMs and vegetables. The application of selected wavebands was further tested using NIR imaging, and the results showed good potentiality by identifying 99 out of 107 FMs. The results indicate the high applicability of the multispectral NIR imaging technique to detect FMs in fresh-cut vegetables for industrial application.
- Published
- 2022
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25. Investigation of reflectance, fluorescence, and Raman hyperspectral imaging techniques for rapid detection of aflatoxins in ground maize
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Yong-Kyoung Kim, Moon S. Kim, Byeung Kon Shin, Jianwei Qin, Geonwoo Kim, Soon-kil Cho, Diane E. Chan, Kyung-Min Lee, Insuck Baek, and Timothy J. Herrman
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Aflatoxin ,business.industry ,Hyperspectral imaging ,Pattern recognition ,Quadratic classifier ,Linear discriminant analysis ,Fluorescence ,VNIR ,Support vector machine ,symbols.namesake ,symbols ,Artificial intelligence ,Raman spectroscopy ,business ,Food Science ,Biotechnology ,Mathematics - Abstract
Aflatoxins, commonly found in corn and corn-derived products, can cause severe illness in animals and humans if consumed in significant amounts. Early detection is critical to preventing illness, but the most sensitive and effective of commonly used screening tools for aflatoxins are expensive and cumbersome methods based on chromatography or imunoassays that require technical expertise to perform. Multiple hyperspectral imaging techniques, including reflectance in the visible and near-infrared (VNIR) region and short-wave infrared (SWIR) region, fluorescence by 365 nm ultraviolet (UV) excitation, and Raman by 785 nm laser excitation, were used for detection of aflatoxin in ground maize. Four classification models based on linear discriminant analysis (LDA), linear support vector machines (LSVM), quadratic discriminant analysis (QDA), and quadratic support vector machines (QSVM) algorithms were developed for classification with each hyperspectral imaging mode. The multivariate classification models in combination with different preprocessing methods were applied for screening of maize samples naturally contaminated with aflatoxin. The classification accuracies for fluorescence with QSVM, VNIR with QSVM, SWIR with LSVM, and Raman with LSVM were 95.7%, 82.6%, 95.7%, and 87.0%, respectively, with no false-negative error at the cutoff of 10 μg/kg. The SWIR and fluorescence models showed slightly higher performance accuracies, suggesting that they may be more effective and efficient analytical tools for aflatoxin analysis in maize compared to conventional wet-chemical methods. These methods show promise as inexpensive, and easy-to-use screening tools for food safety, to rapidly detect aflatoxins in maize or other food ingredients intended for animal or human consumption.
- Published
- 2022
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- View/download PDF
26. Quantitative detection of benzoyl peroxide in wheat flour using line-scan short-wave infrared hyperspectral imaging
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Byoung-Kwan Cho, Moon S. Kim, Hoonsoo Lee, Insuck Baek, and Geonwoo Kim
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Materials science ,Metals and Alloys ,Wheat flour ,Hyperspectral imaging ,Benzoyl peroxide ,Condensed Matter Physics ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,symbols.namesake ,Wavelength ,Partial least squares regression ,Materials Chemistry ,symbols ,medicine ,Short wave infrared ,Electrical and Electronic Engineering ,Raman spectroscopy ,Line scan ,Instrumentation ,Remote sensing ,medicine.drug - Abstract
The addition of benzol peroxide (BPO) to wheat flour as a bleaching agent has been widely recognized as an important food safety issue due to its negative effects on human health. To address this issue, various nondestructive optical-based techniques have been developed to screen for BPO, such as Raman spectroscopy and hyperspectral imaging (HSI). In this study, a shortwave infrared (SWIR) HSI system was developed for the rapid detection of BPO particles in wheat flour. The SWIR HSI system, detailed hyperspectral image processing procedures, and optimal model to detect BPO particles were evaluated. The model was developed using the partial least square regression (PLSR) method. To improve performance of the model, effective wavelength regions were selected, and various pre-processing methods were applied to the PLSR analysis. The developed model was able to detect BPO in wheat flour at 50–6400 ppm with a high determinant coefficient (> 0.985) between predicted and actual values. The developed SWIR HIS system and optimized model demonstrated a high potential for discriminating BPO particles in wheat flour and allowed for its quantitative evaluation.
- Published
- 2022
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27. Handheld Multispectral Fluorescence Imaging System to Detect and Disinfect Surface Contamination
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Alireza Akhbardeh, Insuck Baek, Hamed Taheri Gorji, Jianwei Qin, Kouhyar Tavakolian, Fartash Vasefi, Diane E. Chan, Nadeem Khan, Stanislav Sokolov, Nicholas B. Mackinnon, Mitchell Sueker, Kristen Stromsodt, Bo Liang, Moon S. Kim, Taylor Schmit, and Rangati Varma
- Subjects
sanitization documentation ,2019-20 coronavirus outbreak ,Fluorescence-lifetime imaging microscopy ,Ultraviolet Rays ,Multispectral image ,TP1-1185 ,Biochemistry ,Article ,Analytical Chemistry ,fluorescence imaging ,UV disinfection ,Ultraviolet light ,Food science ,Electrical and Electronic Engineering ,Uv disinfection ,Instrumentation ,cleanliness verification ,Chemistry ,Chemical technology ,Uvc irradiation ,Optical Imaging ,Fungi ,Contamination ,Atomic and Molecular Physics, and Optics ,Disinfection ,Biofilms ,saliva and respiratory droplets ,Food contaminant - Abstract
Contamination inspection is an ongoing concern for food distributors, restaurant owners, caterers, and others who handle food. Food contamination must be prevented, and zero tolerance legal requirements and damage to the reputation of institutions or restaurants can be very costly. This paper introduces a new handheld fluorescence-based imaging system that can rapidly detect, disinfect, and document invisible organic residues and biofilms which may host pathogens. The contamination, sanitization inspection, and disinfection (CSI-D) system uses light at two fluorescence excitation wavelengths, ultraviolet C (UVC) at 275 nm and violet at 405 nm, for the detection of organic residues, including saliva and respiratory droplets. The 275 nm light is also utilized to disinfect pathogens commonly found within the contaminated residues. Efficacy testing of the neutralizing effects of the ultraviolet light was conducted for Aspergillus fumigatus, Streptococcus pneumoniae, and the influenza A virus (a fungus, a bacterium, and a virus, respectively, each commonly found in saliva and respiratory droplets). After the exposure to UVC light from the CSI-D, all three pathogens experienced deactivation (>, 99.99%) in under ten seconds. Up to five-log reductions have also been shown within 10 s of UVC irradiation from the CSI-D system.
- Published
- 2021
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28. High-Throughput Phenotyping Approach for the Evaluation of Heat Stress in Korean Ginseng (Panax ginseng Meyer) Using a Hyperspectral Reflectance Image
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Moon S. Kim, Byoung-Kwan Cho, Mohammad Akbar Faqeerzada, Eunsoo Park, Insuck Baek, Mohammad Kamran Omari, Yun-Soo Kim, and Hyun-Kwon Suh
- Subjects
Korean ginseng ,Panax ,ginseng ,TP1-1185 ,Biology ,Biochemistry ,Article ,Analytical Chemistry ,Hyperspectral reflectance ,Protein content ,plant phenomics ,Ginseng ,near-infrared hyperspectral imaging ,Humans ,Cultivar ,Least-Squares Analysis ,Electrical and Electronic Engineering ,Instrumentation ,Spectroscopy, Near-Infrared ,Chemical technology ,Discriminant Analysis ,food and beverages ,Hyperspectral imaging ,Linear discriminant analysis ,spectral analysis ,Atomic and Molecular Physics, and Optics ,Heat stress ,Horticulture ,non-destructive measurement ,stress monitoring ,Heat-Shock Response - Abstract
Panax ginseng has been used as a traditional medicine to strengthen human health for centuries. Over the last decade, significant agronomical progress has been made in the development of elite ginseng cultivars, increasing their production and quality. However, as one of the significant environmental factors, heat stress remains a challenge and poses a significant threat to ginseng plants’ growth and sustainable production. This study was conducted to investigate the phenotype of ginseng leaves under heat stress using hyperspectral imaging (HSI). A visible/near-infrared (Vis/NIR) and short-wave infrared (SWIR) HSI system were used to acquire hyperspectral images for normal and heat stress-exposed plants, showing their susceptibility (Chunpoong) and resistibility (Sunmyoung and Sunil). The acquired hyperspectral images were analyzed using the partial least squares-discriminant analysis (PLS-DA) technique, combining the variable importance in projection and successive projection algorithm methods. The correlation of each group was verified using linear discriminant analysis. The developed models showed 12 bands over 79.2% accuracy in Vis/NIR and 18 bands with over 98.9% accuracy at SWIR in validation data. The constructed beta-coefficient allowed the observation of the key wavebands and peaks linked to the chlorophyll, nitrogen, fatty acid, sugar and protein content regions, which differentiated normal and stressed plants. This result shows that the HSI with the PLS-DA technique significantly differentiated between the heat-stressed susceptibility and resistibility of ginseng plants with high accuracy.
- Published
- 2021
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29. Near-Infrared Transmittance Spectral Imaging for Nondestructive Measurement of Internal Disorder in Korean Ginseng
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Byoung-Kwan Cho, Jayoung Lee, Lalit Mohan Kandpal, Hyungjin Bae, Insuck Baek, and Moon S. Kim
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Quality Control ,medicine.medical_specialty ,Korean ginseng ,Materials science ,Nondestructive measurement ,Panax ,Biosensing Techniques ,ginseng ,food quality ,lcsh:Chemical technology ,01 natural sciences ,Biochemistry ,Article ,Analytical Chemistry ,Ginseng ,0404 agricultural biotechnology ,near-infrared transmittance imaging ,Republic of Korea ,Transmittance ,medicine ,Humans ,lcsh:TP1-1185 ,Electrical and Electronic Engineering ,Instrumentation ,internal disorder ,Plant Diseases ,Principal Component Analysis ,Spectroscopy, Near-Infrared ,010401 analytical chemistry ,Near-infrared spectroscopy ,04 agricultural and veterinary sciences ,040401 food science ,nondestructive measurement ,Atomic and Molecular Physics, and Optics ,spectral analysis ,0104 chemical sciences ,Internal quality ,Spectral imaging ,Molecular Imaging ,Principal component analysis ,Multivariate Analysis ,Biological system - Abstract
The grading of ginseng (Panax ginseng) including the evaluation of internal quality attributes is essential in the ginseng industry for quality control. Assessment for inner whitening, a major internal disorder, must be conducted when identifying high quality ginseng. Conventional methods for detecting inner whitening in ginseng root samples use manual inspection, which is time-consuming and inaccurate. This study develops an internal quality measurement technique using near-infrared transmittance spectral imaging to evaluate inner whitening in ginseng samples. Principle component analysis (PCA) was used on ginseng hypercube data to evaluate the developed technique. The transmittance spectra and spectral images of ginseng samples exhibiting inner whitening showed weak intensity characteristics compared to normal ginseng in the region of 900&ndash, 1050 nm and 1150&ndash, 1400 nm respectively, owing to the presence of whitish internal tissues that have higher optical density. On the basis of the multivariate analysis method, even a simple waveband ratio image has the great potential to quickly detect inner whitening in ginseng samples, since these ratio images show a significant difference between whitened and non-whitened regions. Therefore, it is possible to develop an efficient and rapid spectral imaging system for the real-time detection of inner whitening in ginseng using minimal spectral wavebands. This novel strategy for the rapid, cost-effective, non-destructive detection of ginseng&rsquo, s inner quality can be a key component for the automation of ginseng grading.
- Published
- 2019
30. Food safety and quality applications of line-scan Raman imaging and spectroscopy techniques (Conference Presentation)
- Author
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Byoung-Kwan Cho, Moon S. Kim, Insuck Baek, Jeehwa Hong, Sagar Dhakal, Jianwei Qin, and Kuanglin Chao
- Subjects
Chemical imaging ,Materials science ,business.industry ,Spatially offset Raman spectroscopy ,Hyperspectral imaging ,Laser ,Food safety ,law.invention ,symbols.namesake ,law ,symbols ,Spectroscopy ,Raman spectroscopy ,business ,Spectrograph ,Remote sensing - Abstract
Commercial Raman systems generally conduct imaging and spectroscopy measurements at subcentimeter scales. Such small spatial ranges cannot be used to inspect food samples with large surface areas (e.g., tomato fruit and beef steak), which is not convenient for food experiments. A line-scan macro-scale Raman system has been developed using a 785 nm line laser to implement high-throughput Raman chemical imaging (RCI) for food safety and quality research. A one-axis positioning table is used to move the samples to accumulate hyperspectral data using a pushbroom method. A dispersive Raman spectrograph is used in the system, which can be configured to backscattering RCI mode for surface inspection and spatially offset Raman spectroscopy (SORS) mode for subsurface inspection. In-house developed LabVIEW software is used to fulfill functions for system control, hardware parameterization, and data transfer. The systems is flexible and versatile for food test, and it has been used to evaluate safety and quality of various food and agricultural products, such as detecting chemical adulterants mixed in food powders, mapping carotenoid content on carrot cross section, imaging whole surface of pork shoulder, and authenticating foods and ingredients through packages.
- Published
- 2019
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31. Shortwave infrared hyperspectral imaging system coupled with multivariable method for TVB-N measurement in pork
- Author
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Insuck Baek, Changyeun Mo, Moon S. Kim, Byoung-Kwan Cho, Hoonsoo Lee, and Diane E. Chan
- Subjects
Normalization (statistics) ,Multivariate statistics ,Correlation coefficient ,business.industry ,Multivariable calculus ,010401 analytical chemistry ,Hyperspectral imaging ,Feature selection ,04 agricultural and veterinary sciences ,040401 food science ,01 natural sciences ,0104 chemical sciences ,0404 agricultural biotechnology ,Nondestructive testing ,business ,Spatial analysis ,Food Science ,Biotechnology ,Mathematics ,Remote sensing - Abstract
Monitoring and maintaining the freshness of meat is important to ensuring a supply of meat that is safe for consumption. The objective of this study is to present a shortwave infrared (SWIR) hyperspectral imaging system in combination with partial least-squares regression (PLSR) model and feature selection methods that can be used for the prediction of the total volatile basic nitrogen (TVB-N) content in fresh pork. The SWIR hyperspectral reflectance images were acquired for pork samples removed from refrigerated storage after 1, 4, 8, 11, 15, and 21 days. The hyperspectral SWIR images and actual TVB-N contents were used for constructing the PLSR model. PLSR models were optimized by using feature selection strategies such as random frog (RF) and variable importance in projection (VIP) score. The predictions from the optimal RF-PLSR model value with maximum normalization preprocessing exhibited correlation coefficient values for R c 2 and R p 2 of 0.94 and 0.90, respectively. Moreover, this research showed that visualization of TVB-N levels applied to the optimal model based on selected wavebands provide an intuitive way to interpret the spatial information of the sample. This study revealed that the multivariate models developed here for rapid and nondestructive evaluation of pork freshness can be feasible for use in online inspection systems as an effective substitute for traditional methods to evaluate pork freshness.
- Published
- 2021
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32. Development of Fluorescence Imaging Technique to Detect Fresh-Cut Food Organic Residue on Processing Equipment Surface
- Author
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Moon S. Kim, Insuck Baek, Jongguk Lim, Youngwook Seo, Chansong Hwang, and Changyeun Mo
- Subjects
0106 biological sciences ,Fluorescence-lifetime imaging microscopy ,Sample (material) ,detection ,Orange (colour) ,Residual ,lcsh:Technology ,01 natural sciences ,lcsh:Chemistry ,0404 agricultural biotechnology ,hyperspectral fluorescence ,010608 biotechnology ,General Materials Science ,stainless steel ,lcsh:QH301-705.5 ,Instrumentation ,Fluid Flow and Transfer Processes ,Residue (complex analysis) ,lcsh:T ,business.industry ,Process Chemistry and Technology ,General Engineering ,Hyperspectral imaging ,organic residue ,04 agricultural and veterinary sciences ,Contamination ,Pulp and paper industry ,040401 food science ,lcsh:QC1-999 ,fresh-cut food ,Computer Science Applications ,lcsh:Biology (General) ,lcsh:QD1-999 ,lcsh:TA1-2040 ,Food processing ,Environmental science ,lcsh:Engineering (General). Civil engineering (General) ,business ,lcsh:Physics - Abstract
With increasing public demand for ready-to-eat fresh-cut food products, proper sanitation of food-processing equipment surfaces is essential to mitigate potential contamination of these products to ensure safe consumption. This study presents a sanitation monitoring technique using hyperspectral fluorescence images to detect fruit residues on food-processing equipment surfaces. An algorithm to detect residues on the surfaces of 2B-finished and #4-finished stainless-steel, both commonly used in food processing equipment, was developed. Honeydew, orange, apple, and watermelon were selected as representatives since they are mainly used as fresh-cut fruits. Hyperspectral fluorescence images were obtained for stainless steel sheets to which droplets of selected fruit juices at six concentrations were applied and allowed to dry. The most significant wavelengths for detecting juice at each concentration were selected through ANOVA analysis. Algorithms using a single waveband and using a ratio of two wavebands were developed for each sample and for all the samples combined. Results showed that detection accuracies were better for the samples with higher concentrations. The integrated algorithm had a detection accuracy of 100% and above 95%, respectively, for the original juice up to the 1:20 diluted samples and for the more dilute 1:50 to 1:100 samples, respectively. The results of this study establish that using hyperspectral imaging, even a small residual quantity that may exist on the surface of food processing equipment can be detected and that sanitation monitoring and management is possible.
- Published
- 2021
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33. Detection of fish fillet substitution and mislabeling using multimode hyperspectral imaging techniques
- Author
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Rachel B. Isaacs, Fartash Vasefi, Insuck Baek, Rosalee S. Hellberg, Walter F. Schmidt, Ayse Gamze Yilmaz, Jianwei Qin, Chansong Hwang, Moon S. Kim, and Alireza Akhbardeh
- Subjects
food.ingredient ,business.industry ,010401 analytical chemistry ,Fish fillet ,Hyperspectral imaging ,Tilapia ,Pattern recognition ,Feature selection ,04 agricultural and veterinary sciences ,Linear discriminant analysis ,040401 food science ,01 natural sciences ,0104 chemical sciences ,VNIR ,Naive Bayes classifier ,0404 agricultural biotechnology ,food ,Principal component analysis ,Artificial intelligence ,business ,Food Science ,Biotechnology ,Mathematics - Abstract
Substitution of high-priced fish species with inexpensive alternatives and mislabeling frozen-thawed fish fillets as fresh are two important fraudulent practices of concern in the seafood industry. This study aimed to develop multimode hyperspectral imaging techniques to detect substitution and mislabeling of fish fillets. Line-scan hyperspectral images were acquired from fish fillets in four modes, including reflectance in visible and near-infrared (VNIR) region, fluorescence by 365 nm UV excitation, reflectance in short-wave infrared (SWIR) region, and Raman by 785 nm laser excitation. Fish fillets of six species (i.e., red snapper, vermilion snapper, Malabar snapper, summer flounder, white bass, and tilapia) were used for species differentiation and frozen-thawed red snapper fillets were used for freshness evaluation. All fillet samples were DNA tested to authenticate the species. A total of 24 machine learning classifiers in six categories (i.e., decision trees, discriminant analysis, Naive Bayes classifiers, support vector machines, k-nearest neighbor classifiers, and ensemble classifiers) were used for fish species and freshness classifications using four types of spectral data in three different datasets (i.e., full spectra, first ten components of principal component analysis, and bands selected by sequential feature selection method). The highest accuracies were achieved at 100% using full VNIR reflectance spectra for the species classification and 99.9% using full SWIR reflectance spectra for the freshness classification. The VNIR reflectance mode gave the overall best performance for both species and freshness inspection, and it will be further investigated as a rapid technique for detection of fish fillet substitution and mislabeling.
- Published
- 2020
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- View/download PDF
34. Raman spectral analysis for non-invasive detection of external and internal parameters of fake eggs
- Author
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Jianwei Qin, Rahul Joshi, Moon S. Kim, Byoung-Kwan Cho, Santosh Lohumi, Insuck Baek, and Ritu Joshi
- Subjects
Computer science ,ComputingMilieux_LEGALASPECTSOFCOMPUTING ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Imaging data ,symbols.namesake ,Materials Chemistry ,Spectral analysis ,Electrical and Electronic Engineering ,Instrumentation ,Sodium alginate ,business.industry ,Non invasive ,Metals and Alloys ,Hyperspectral imaging ,Pattern recognition ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,0104 chemical sciences ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,symbols ,ComputingMilieux_COMPUTERSANDSOCIETY ,Fake food ,Artificial intelligence ,0210 nano-technology ,Raman spectroscopy ,business ,Tartrazine dye - Abstract
Cases of imitation or fake food materials are sometimes produced and sold for purposes of economic fraud. However, while some imitation or fake food materials merely incorporate lower quality or cheaper alternative ingredients that are safe to eat, others fakes are produced using non-edible or hazardous ingredients that are unsafe for consumption. The latter group includes fake eggs which are often difficult to identify by eye. Such fakes have been found in various parts of Asia, made from harmful ingredients such as sodium alginate, tartrazine dye, gypsum powder, and paraffin wax. The objective of this study is to evaluate the use of Raman spectral analysis for nondestructive, noninvasive identification of fake eggs. In this study, fake eggs were prepared and then Raman spectroscopic and imaging data were collected from both the fake eggs and real chicken eggs. Classification of the fake and real eggs was tested using both Raman spectroscopy (1800–600 cm−1) with multivariate analysis methods and Raman hyperspectral imaging (1500–390 cm−1) with waveband optimization. The results demonstrated that both techniques are able to differentiate fake eggs from real eggs.
- Published
- 2020
- Full Text
- View/download PDF
35. Rapid Measurement of Soybean Seed Viability Using Kernel-Based Multispectral Image Analysis
- Author
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Byoung-Kwan Cho, Santosh Lohumi, Lalit Mohan Kandpal, Insuck Baek, Changyeun Mo, Moon S. Kim, and Dewi Kusumaningrum
- Subjects
Multispectral image ,02 engineering and technology ,lcsh:Chemical technology ,variable importance in projection ,01 natural sciences ,Biochemistry ,near-infrared ,Article ,Analytical Chemistry ,kernel-based classification ,multispectral imaging ,lcsh:TP1-1185 ,Electrical and Electronic Engineering ,Projection (set theory) ,Instrumentation ,Mathematics ,Pixel ,business.industry ,010401 analytical chemistry ,seed viability ,Hyperspectral imaging ,food and beverages ,Pattern recognition ,021001 nanoscience & nanotechnology ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,Kernel (statistics) ,Classification methods ,Artificial intelligence ,Selection method ,0210 nano-technology ,business - Abstract
Viability is an important quality factor influencing seed germination and crop yield. Current seed-viability testing methods rely on conventional manual inspections, which use destructive, labor-intensive and time-consuming measurements. The aim of this study is to distinguish between viable and nonviable soybean seeds, using a near-infrared (NIR) hyperspectral imaging (HSI) technique in a rapid and nondestructive manner. The data extracted from the NIR&ndash, HSI of viable and nonviable soybean seeds were analyzed using a partial least-squares discrimination analysis (PLS-DA) technique for classifying the viable and nonviable soybean seeds. Variable importance in projection (VIP) was used as a waveband selection method to develop a multispectral imaging model. Initially, the spectral profile of each pixel in the soybean seed images was subjected to PLS-DA analysis, which yielded a reasonable classification accuracy, however, the pixel-based classification method was not successful for high accuracy detection for nonviable seeds. Another viability detection method was then investigated: a kernel image threshold method with an optimum-detection-rate strategy. The kernel-based classification of seeds showed over 95% accuracy even when using only seven optimal wavebands selected through VIP. The results show that the proposed multispectral NIR imaging method is an effective and accurate nondestructive technique for the discrimination of soybean seed viability.
- Published
- 2018
36. Real-time sorting of melon seed using hyperspectral shortwave infrared imaging (Conference Presentation)
- Author
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Hoonsoo Lee, Collins Wakholi, Byoung-Kwan Cho, Hyungjin Bae, Insuck Baek, Moon S. Kim, and Eunsoo Park
- Subjects
Computer science ,business.industry ,Sorting ,Hyperspectral imaging ,Pattern recognition ,Artificial intelligence ,business ,Shortwave infrared - Abstract
Despite the complexity of the factors that lead to loss of seed viability, conventional methods like germination tests, tetrazolium tests are commonly employed to determine it. However, these methods have downsides like being destructive, time consuming and non-representative. Therefore, there is a need to develop a fast, non-destructive and real-time measurement and sorting system of seeds based on viability for industrial purpose. In this study, we seek to utilize HSI and multivariate data analysis techniques to classify viable seeds from non-viable ones and later use it basis to develop an online real-time detection system for sorting these seeds based on viability. For this cause, Data from melon and watermelon seeds were collected using a SWIR HSI system. The performance of the classification models achieved both during calibration and real-time tests were quite impressive and a proof that HSI can be effectively applied to an industrial real-time sorting system.
- Published
- 2018
- Full Text
- View/download PDF
37. Development of online whole-surface apple inspection system using line-scan hyperspectral imaging technology (Conference Presentation)
- Author
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Moon S. Kim, Stephen Andrew Gadsden, and Insuck Baek
- Subjects
business.industry ,Machine vision ,Computer science ,media_common.quotation_subject ,ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION ,Hyperspectral imaging ,Reconstruction method ,Presentation ,Computer vision ,Artificial intelligence ,Line scan ,business ,ComputingMilieux_MISCELLANEOUS ,media_common - Abstract
Applications of machine vision techniques are prevalent for quality inspection of foods. For safety inspection of fruits such as apples to detect biological contaminants, a method to capture and reconstruct a whole-surface of apple is needed. In this paper, we present a reconstruction method for whole-surface imaging of apples with the use of a line-scan hyperspectral imaging technique. In addition, the development of online whole-surface inspection technology for round-fruits is presented.
- Published
- 2018
- Full Text
- View/download PDF
38. Quality measurement of bell peppers using hyperspectral near infrared imaging (Conference Presentation)
- Author
-
Insuck Baek, Anisur Rahman, Hoonsoo Lee, Hyungjin Bae, Byoung-Kwan Cho, Changyeun Mo, and Moon S. Kim
- Subjects
Soluble solids ,Partial least squares regression ,Bell peppers ,Multivariate calibration ,Hyperspectral imaging ,Near infrared imaging ,Quality measurement ,Water content ,Remote sensing ,Mathematics - Abstract
The objective of this study was to predict the moisture content, soluble solids content, and titratable acidity content in bell peppers during storage, based on hyperspectral imaging (HSI) in the 1000–1500 nm wavelength range. The mean spectra of 148 mature bell peppers were extracted from the hyperspectral images, and multivariate calibration models were built using partial least squares regression to predict MC, SSC, and TA content in bell peppers with different preprocessing techniques. The selected optimum wavelengths were used to create distribution maps for MC, SSC, and TA content of bell peppers. The results revealed that HSI coupled with multivariate analysis can be used successfully to predict the MC, SSC, and TA content in bell peppers.
- Published
- 2018
- Full Text
- View/download PDF
39. Characterization of E coli biofim formations on baby spinach leaf surfaces using hyperspectral fluorescence imaging
- Author
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Moon S. Kim, Hoonsoo Lee, Insuck Baek, Mirae Oh, Hyunjeong Cho, and Sungyoun Kim
- Subjects
0301 basic medicine ,03 medical and health sciences ,Fluorescence-lifetime imaging microscopy ,030104 developmental biology ,Chromatography ,030106 microbiology ,Biofilm ,Analytical chemistry ,Hyperspectral imaging ,Spinach ,Biology ,biology.organism_classification ,Ultraviolet radiation - Abstract
Bacterial biofilm formed by pathogens on fresh produce surfaces is a food safety concern because the complex extracellular matrix in the biofilm structure reduces the reduction and removal efficacies of washing and sanitizing processes such as chemical or irradiation treatments. Therefore, a rapid and nondestructive method to identify pathogenic biofilm on produce surfaces is needed to ensure safe consumption of fresh, raw produce. This research aimed to evaluate the feasibility of hyperspectral fluorescence imaging for detecting Escherichia.coli (ATCC 25922) biofilms on baby spinach leaf surfaces. Samples of baby spinach leaves were immersed and inoculated with five different levels (from 2.6x104 to 2.6x108 CFU/mL) of E.coli and stored at 4°C for 24 h and 48 h to induce biofilm formation. Following the two treatment days, individual leaves were gently washed to remove excess liquid inoculums from the leaf surfaces and imaged with a hyperspectral fluorescence imaging system equipped with UV-A (365 nm) and violet (405 nm) excitation sources to evaluate a spectral-image-based method for biofilm detection. The imaging results with the UV-A excitation showed that leaves even at early stages of biofilm formations could be differentiated from the control leaf surfaces. This preliminary investigation demonstrated the potential of fluorescence imaging techniques for detection of biofilms on leafy green surfaces.
- Published
- 2017
- Full Text
- View/download PDF
40. Optimal Fluorescence Waveband Determination for Detecting Defective Cherry Tomatoes Using a Fluorescence Excitation-Emission Matrix
- Author
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Byoung-Kwan Cho, Moon S. Kim, Insuck Baek, Wang-Hee Lee, and Hoosoo Lee
- Subjects
hyperspectral image ,Fluorescence-lifetime imaging microscopy ,defect detection ,Astrophysics::High Energy Astrophysical Phenomena ,Analytical chemistry ,Astrophysics::Cosmology and Extragalactic Astrophysics ,lcsh:Chemical technology ,Biochemistry ,Article ,Analytical Chemistry ,Optics ,Quality (physics) ,Solanum lycopersicum ,Cherry tomato ,fluorescence image ,Image Interpretation, Computer-Assisted ,Republic of Korea ,Microscopy ,lcsh:TP1-1185 ,Emission spectrum ,Electrical and Electronic Engineering ,Instrumentation ,Astrophysics::Galaxy Astrophysics ,quality sorting ,biology ,business.industry ,Chemistry ,biology.organism_classification ,Fluorescence ,Atomic and Molecular Physics, and Optics ,Wavelength ,Spectrometry, Fluorescence ,Microscopy, Fluorescence ,Fruit ,cherry tomato ,business ,Algorithms ,Food Analysis ,Excitation - Abstract
A multi-spectral fluorescence imaging technique was used to detect defective cherry tomatoes. The fluorescence excitation and emission matrix was used to measure for defects, sound surface and stem areas to determine the optimal fluorescence excitation and emission wavelengths for discrimination. Two-way ANOVA revealed the optimal excitation wavelength for detecting defect areas was 410 nm. Principal component analysis (PCA) was applied to the fluorescence emission spectra of all regions at 410 nm excitation to determine the emission wavelengths for defect detection. The major emission wavelengths were 688 nm and 506 nm for the detection. Fluorescence images combined with the determined emission wavebands demonstrated the feasibility of detecting defective cherry tomatoes with >, 98% accuracy. Multi-spectral fluorescence imaging has potential utility in non-destructive quality sorting of cherry tomatoes.
- Published
- 2014
- Full Text
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41. Prediction of the Melamine Particle Concentration in Milk Powder Using Hyperspectral Reflectance Imaging and Partial Least Square Regression Model
- Author
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Chang Yeun Mo, Jongguk Lim, Insuck Baek, Sukwon Kang, Hoyoung Lee, Moon S. Kim, Giyoung Kim, and Kangjin Lee
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Hyperspectral reflectance ,chemistry.chemical_compound ,Materials science ,chemistry ,Partial least squares regression ,Analytical chemistry ,Mineralogy ,Particle ,Melamine ,Food Science - Published
- 2013
- Full Text
- View/download PDF
42. Detection of cuticle defects on cherry tomatoes using hyperspectral fluorescence imagery
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Moon S. Kim, Dae-Yong Kim, Hanhong Bae, Byoung-Kwan Cho, Young-Sik Kim, Insuck Baek, Wang-Hee Lee, and Jongkee Kim
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Cuticle ,Consumer health ,Multispectral image ,food and beverages ,Hyperspectral imaging ,Horticulture ,Fluorescence intensity ,Principal component analysis ,Postharvest ,Processing plants ,Biological system ,Agronomy and Crop Science ,Food Science ,Mathematics ,Remote sensing - Abstract
Cherry tomatoes are one of the major vegetables consumed in the fresh-cut market. However, the quality evaluation process, which is dependent on simple size- or color-sorting techniques, is inadequate to meet increased consumer demands for high quality and safety. Among various quality evaluations, detection of cracking defects in cherry tomatoes is a critical process since this type of damage can harbor pathogenic microbes that may have detrimental consequences on consumer health. In this study, a multi-spectral fluorescence imaging technique has been presented as a diagnostic tool for non-destructive detection of defective cherry tomatoes. Fluorescence intensity in the area of cracked cuticle was significantly higher in the blue-green spectral region than that of the sound surfaces, suggesting the multi-spectral fluorescence imaging technique as an effective classification tool for detecting cracking defects on cherry tomatoes. Simple ANOVA classification analysis and principal component analysis were employed to investigate optimal fluorescence wavebands. The results illustrate that a multi-spectral fluorescence image in linear combination with a pair of selected wavebands based on the results of ANOVA analysis was able to detect defective cherry tomatoes with >99% accuracy. The detection algorithm investigated in this study is expected to be used to develop on-site and real-time multi-spectral systems for quality evaluation of cherry tomatoes in postharvest processing plants.
- Published
- 2013
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- View/download PDF
43. Biological sample evaluation using a line-scan based SWIR hyperspectral imaging system
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Insuck Baek
- Published
- 2016
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- View/download PDF
44. Assessment of pork and poultry meat and bone meal using hyperspectral fluorescence imaging
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Sang-Ho Moon, Hoonsoo Lee, Mirae Oh, Insuck Baek, Kangjin Lee, Moon S. Kim, Hyunjeong Cho, and Eun Kyung Kim
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Fluorescence-lifetime imaging microscopy ,medicine.medical_specialty ,business.industry ,Animal feed ,Bovine spongiform encephalopathy ,Hyperspectral imaging ,Biology ,medicine.disease ,Meat and bone meal ,Bone meal ,Spectral imaging ,Biotechnology ,medicine ,Livestock ,Food science ,business - Abstract
Animal feed with meat and bone meal (MBM) has been the source of bovine spongiform encephalopathy (BSE) in cattle and other livestock animals. Many countries have banned the use MBM as animal feed ingredient. Spectral imaging techniques have shown potentials for rapidly assessing authentication of various food and feed ingredients. The aim of this study was to develop rapid and accurate spectral imaging methods for assessing MBM in animal feed. A preliminary investigation of hyperspectral fluorescence imaging techniques for assessing pork and poultry MBM characteristics in animal feeds is presented in this paper.
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- 2016
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45. MCT-based SWIR hyperspectral imaging system for evaluation of biological samples
- Author
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Moon S. Kim, Insuck Baek, Hoonsoo Lee, and Seok Min Hong
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Chemical imaging ,business.industry ,Detector ,Hyperspectral imaging ,Shortwave infrared ,chemistry.chemical_compound ,Optics ,chemistry ,Nondestructive testing ,Full spectral imaging ,Environmental science ,Mercury cadmium telluride ,business ,Spectrograph ,Remote sensing - Abstract
Hyperspectral imaging has been shown to be a powerful tool for nondestructive evaluation of biological samples. We recently developed a new line-scan-based shortwave infrared (SWIR) hyperspectral imaging system. Critical sensing components of the system include a SWIR spectrograph, an MCT (HgCdTe) array detector, and a custom-designed illumination source. The system has an effective imaging range from 900 nm to 2500 nm. In this paper, we present SWIR hyperspectral images of plant leaves and fruits, and preliminary SWIR image analysis results.
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- 2016
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46. Detection of melamine in milk powders using near-infrared hyperspectral imaging combined with regression coefficient of partial least square regression model
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Byoung-Kwan Cho, Xiaping Fu, Moon S. Kim, Giyoung Kim, Jongguk Lim, Kuanglin Chao, Jianwei Qin, Insuck Baek, and Changyeun Mo
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Analytical chemistry ,01 natural sciences ,Analytical Chemistry ,chemistry.chemical_compound ,0404 agricultural biotechnology ,Linear regression ,Partial least squares regression ,Animals ,Least-Squares Analysis ,Powder mixture ,Chromatography ,Spectroscopy, Near-Infrared ,Triazines ,010401 analytical chemistry ,Near-infrared spectroscopy ,Hyperspectral imaging ,Reproducibility of Results ,04 agricultural and veterinary sciences ,040401 food science ,0104 chemical sciences ,Milk ,Infant formula ,chemistry ,Gas chromatography–mass spectrometry ,Powders ,Melamine ,Algorithms ,Food Analysis - Abstract
Illegal use of nitrogen-rich melamine (C3H6N6) to boost perceived protein content of food products such as milk, infant formula, frozen yogurt, pet food, biscuits, and coffee drinks has caused serious food safety problems. Conventional methods to detect melamine in foods, such as Enzyme-linked immunosorbent assay (ELISA), High-performance liquid chromatography (HPLC), and Gas chromatography-mass spectrometry (GC-MS), are sensitive but they are time-consuming, expensive, and labor-intensive. In this research, near-infrared (NIR) hyperspectral imaging technique combined with regression coefficient of partial least squares regression (PLSR) model was used to detect melamine particles in milk powders easily and quickly. NIR hyperspectral reflectance imaging data in the spectral range of 990-1700nm were acquired from melamine-milk powder mixture samples prepared at various concentrations ranging from 0.02% to 1%. PLSR models were developed to correlate the spectral data (independent variables) with melamine concentration (dependent variables) in melamine-milk powder mixture samples. PLSR models applying various pretreatment methods were used to reconstruct the two-dimensional PLS images. PLS images were converted to the binary images to detect the suspected melamine pixels in milk powder. As the melamine concentration was increased, the numbers of suspected melamine pixels of binary images were also increased. These results suggested that NIR hyperspectral imaging technique and the PLSR model can be regarded as an effective tool to detect melamine particles in milk powders.
- Published
- 2015
47. Determination of optimal excitation and emission wavebands for detection of defect cherry tomato by using fluorescence emission and excitation matrix
- Author
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Insuck Baek, Byoung-Kwan Cho, Young-Sik Kim, and Moon S. Kim
- Subjects
Fluorescence-lifetime imaging microscopy ,Materials science ,biology ,business.industry ,food and beverages ,biology.organism_classification ,Fluorescence ,law.invention ,Wavelength ,Quality (physics) ,Optics ,Cherry tomato ,law ,Optoelectronics ,business ,Luminescence ,Excitation ,Light-emitting diode - Abstract
Fluorescence imaging technique has been widely used for quality and safety measurements of agro-food materials. Fluorescence emission intensities of target materials are influenced by wavelengths of excitation sources. Hence, selection of a proper excitation wavelength is an important factor in differentiating target materials effectively. In this study, optimal fluorescence excitation wavelength was determined on the basis of fluorescence emission intensity of defect and sound areas of cherry tomatoes. The result showed that fluorescence responses of defect and sound surfaces of cherry tomatoes were most significantly separated with the excitation light wavelength range between 400 and 410 nm. Fluorescence images of defect cherry tomatoes were acquired with the LEDs with the central wavelength of 410 nm as the excitation source to verify the detection efficiency of cherry tomato defects. The resultant fluorescence images showed that the defects were discriminated from sound areas on cherry tomatoes with above 98% accuracy. This study shows that high power LEDs as the excitation source for fluorescence imaging are suitable for defect detection of cherry tomatoes.
- Published
- 2013
- Full Text
- View/download PDF
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