Your search keyword '"INCLINOMETER"' showing total 3,360 results

1. Instrumentation Selection Criteria for Field Monitoring of Retaining Systems

Author

Bishnoi, Dinesh, Patil, Vikas, Dasaka, S. M., Krishna, A. Murali, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Rujikiatkamjorn, Cholachat, editor, Xue, Jianfeng, editor, and Indraratna, Buddhima, editor

Published

2025

2. Instrumentation Selection for Field Monitoring of Retaining Systems with Geofoam Inclusions

Author

Bishnoi, Dinesh, Patil, Vikas, Dasaka, S. M., Krishna, A. Murali, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Rujikiatkamjorn, Cholachat, editor, Xue, Jianfeng, editor, and Indraratna, Buddhima, editor

Published

2025

3. Balancing acts: a case study of postural stability comparison between active and retired aerobic gymnastics athletes with inclinometer sensors.

Author

Prabowo Yudho, Firdaus Hendry, Hasanuddin, M. Iqbal, Dermawan, Dikdik Fauzi, Mahardhika, Dhika Bayu, and Risnawati

Subjects

ANATOMICAL planes, WEARABLE technology, INCLINOMETER, GYMNASTICS, ATHLETES

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Optical laser-generated electricity for powering tilt-meter sensor.

Author

Nelfyenny, Dwi Bayuwati, Suryadi, Husdi, Irwan Rawal, Mulyanto, Imam, Dwi Prasetio, Aditya, Irawan, Dedi, Widiyatmoko, Bambang, and Setiono, Andi

Subjects

HAZARD mitigation, POWER transmission, POWER resources, MATHEMATICAL optimization, INCLINOMETER

Abstract

This research investigated the feasibility and efficacy of power over fiber (PoF) transmission systems for geotechnical monitoring applications, addressing challenges associated with traditional power transmission methods. Leveraging fiber optic technology, PoF systems offer advantages such as high reliability, minimal signal loss, and immunity to environmental factors. The study presents a detailed design and implementation of a PoF transmission system, integrating a high-power laser source (HPLS) and photovoltaic technology for efficient power transmission over extended distances. Results demonstrate impressive volt-ampere characteristics and conversion efficiencies, with the optimized system configuration achieving a peak power output of 682 mW. Furthermore, the study evaluated the performance of a surface inclinometer sensor powered by the PoF system, showcasing its effectiveness in monitoring soil movements with remarkable stability and consistent power supply. Future research directions include scalability studies, optimization of system efficiency, and field deployments to broaden the applicability of PoF technology in geotechnical monitoring, ultimately advancing disaster mitigation and infrastructure resilience efforts. [ABSTRACT FROM AUTHOR]

Published

2024

5. Deformation Analysis and Reinforcement Effect Evaluation for the No. 65 Slope on the Shangsan Expressway Based on SBAS-InSAR.

Author

Bai, Dongxin, Lu, Guangyin, Hu, Huihua, Lin, Hang, Chen, Changfu, and Wang, Xuan

Subjects

SYNTHETIC aperture radar, SLOPES (Soil mechanics), ROAD safety measures, INCLINOMETER, EXPRESS highways

Abstract

The deformation of the No. 65 slope on the Shangsan Expressway poses a potential threat to road safety. In July 2021, the deformation rate of this slope accelerated significantly, leading to the implementation of reinforcement measures in 2022. To comprehensively analyze the historical deformation characteristics of the slope and evaluate the effectiveness of the reinforcement measures, this study employs Small Baseline Subset Interferometric Synthetic Aperture Radar (SBAS-InSAR) technology to calculate and analyze the historical deformation characteristics of the slope and the adjacent hillside for two periods: from 10 January 2018 to 22 August 2021, and from 3 September 2021 to 22 December 2023. The SBAS-InSAR monitoring results were compared with in situ data from borehole inclinometers to verify the reliability of the calculations. The SBAS-InSAR results indicate that before reinforcement, the slope exhibited slow movement; however, after the implementation of the reinforcement measures, the displacement significantly decreased, demonstrating the success and effectiveness of the interventions. The consistency between the SBAS-InSAR results, borehole inclinometer data, and surface observations confirms the substantial potential of SBAS-InSAR technology for slope engineering monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

6. Underwater Line Monitoring Using Optimally Placed Inclinometers.

Author

Jin, Chungkuk and Hong, Seong Hyeon

Subjects

SENSOR placement, FOURIER series, GENETIC algorithms, POWER resources, INCLINOMETER

Abstract

Underwater monitoring presents challenges related to maintaining a continuous power supply and communication, necessitating the use of a smaller number of sensors to effectively cover the entire line. An underwater line tracking method is proposed to evaluate global behaviors and stresses in real time. The method employs angles at several points on the line, as well as displacements and curvatures at both ends. In this method, any line displacement, angle, and curvature are expressed as Fourier series, and Fourier coefficients are obtained by utilizing sensor data. Then, the behavior of any line location is assessed. In addition, to reduce the number of sensors and improve accuracy, optimal inclinometer locations are determined by a genetic algorithm. The proposed line tracking algorithm was validated through two numerical examples; one with an inclined tunnel and one with a marine steel catenary riser attached to a Floating Production Storage and Offloading (FPSO) vessel. Through these examples, the proposed algorithm was proven to capture global behaviors accurately when optimally located sensors are used. In the riser monitoring case, the optimized sensor placement with eight intermediate sensors achieved an average mean distance error of 1.91 m, which is lower than the 2.65 m error obtained with ten intermediate sensors without optimization. [ABSTRACT FROM AUTHOR]

Published

2024

7. Assessment of Cervical Joint Position Sense and Head Posture in Individuals With Myogenic Temporomandibular Dysfunctions and Identifying Related Factors: A Case‐Control Study.

Author

Yüzbaşıoğlu, Ümit, Kaynak, Besime Ahu, and Taş, Serkan

Subjects

*MANDIBLE, *TEMPOROMANDIBULAR joint, *MUSCULAR sense, *JOINT diseases, *MUSCLE strength, *TEMPOROMANDIBULAR disorders

Abstract

ABSTRACT Background Objective Methods Results Conclusion Temporomandibular dysfunctions (TMDs) have the potential to cause changes in cervical muscle strength, muscle endurance and position sense by changing muscle activation patterns, especially as a result of forward head posture. The effects of TMDs on cervical joint position sense (CJPS) and head posture remain controversial.The aim of this study was to evaluate the head posture and CJPS of individuals with TMDs and compare them with healthy individuals.This research, which was designed as a case‐control study, was concluded with the inclusion of total of 84 participants (42 individuals diagnosed with myogenic TMDs, 42 controls). The assessment of participants included pain severity, neck and jaw functionality and disability, CJPS, head posture and temporomandibular joint (TMJ) range of motion (ROM).Individuals with TMDs exhibited higher angular deviation in CJPS during flexion and extension (p < 0.001). Additionally, individuals with TMDs demonstrated higher TMJ pain, limitation and dysfunction severity, as well as a more limited TMJ ROM (p < 0.001). Head posture was similar between groups (p > 0.05). There is a significant relationship between VAS‐TMJ with VAS‐cervical, FAI, NDI, JFLS‐8 and TMJ ROM (p < 0.05). Moreover, a significant correlation was observed between NDI with FAI and TMJ ROM (p < 0.05).These results indicate that in addition to higher pain severity, disability and lower jaw ROM, CJPS of individuals with TMDs is also negatively affected. Also, parameters related to disability and functionality of cervical and TMJ were significantly correlated. Further studies are needed to determine the factors contributing to these results. [ABSTRACT FROM AUTHOR]

Published

2024

8. Reliability of two smartphone inclinometer apps in the measurement of dorsal kyphosis in three different positions.

Author

Encarnación Simarro, Guillermo de la and González-Moro, Ignacio Martínez

Abstract

The exploration of the spine in the sagittal plane is of great relevance in the health area. The inclinometer has proved to be reliable in the assessment of this sagittal plane. Due to the growth of technology, a number of smartphone apps which simulates the action of the inclinometer have been developed. Objectives: to analyze the reliability of two Smartphone Inclinometer Apps in the assessment of the dorsal kyphosis of the spine in three different positions when comparing it to a traditional inclinometer and determine if there are differences according to gender. Design: observational, cross-sectional study. 25 healthy voluntaries were included. A traditional inclinometer and two smartphone apps, Clinometer® and Rotating Sphere Inclinometer® were used. Dorsal kyphosis was measured in three different positions: relaxed standing, relaxing seated position and standing anterior flexion. no statistical differences were found between the measurements, and an excellent correlation was obtained comparing the tree devices, observing no differences according to gender The two apps are reliable and comparable to a traditional inclinometer as measuring sagittal curves of the spine. Besides, no variations in reliability according to sex were observed. • Reliability of two smartphone inclinometer apps was analyzed, and compared with a traditional inclinometer. • This two apps were used to measure three sagittal curves of the spine. • The apps obtained a high correlation when compared them to the traditional inclinometer. • There were not differences according to sex. [ABSTRACT FROM AUTHOR]

Published

2024

9. Monitoring of Slopes and Retaining Structures Related to Infrastructures Case Study Hydroelectric Power Plant Jiu River Livezeni Romania

Author

Constantin Olteanu Andrei and Cristina Tomşa

Subjects

geotechnical monitoring, inclinometer, displacement, sliding slope, Transportation engineering, TA1001-1280

Abstract

The Paper presents the results, interpretation and intervention measures obtained from inclinometer monitoring performed for a retaining structure built for the accomplishment of a hydrotechnical structure on Jiu River. The accomplishment of the hydrotechnical structure on Jiu River required a retaining structure of approximately 100m length adjacent to the slope which is crossed by the railway line Tg. Jiu - Simeria. The retaining structure made of 1500mm piles also keeps in safe condition the adjacent E79 Road section.

Published

2024

10. Inclinometer use in primary total hip arthroplasty does not improve acetabular component positioning: a non-randomized control trial

Author

Kyle Goldstein, Wyatt Tyndall, Michaela E. Nickol, and Johannes M. van der Merwe

Subjects

Inclinometer, Total hip arthroplasty, Inclination, Abduction angle, Acetabular safe zones, Orthopedic surgery, RD701-811

Abstract

Abstract Introduction Total hip arthroplasty (THA) is a common surgical procedure that aims to relieve pain, improve function, and increase mobility in patients with hip joint pathology. One of the most challenging aspects of THA is to determine the correct angle of the acetabular component’s placement. Intraoperative inclinometers have emerged as a promising tool to obtain accurate measurements of the acetabular component’s inclination. The primary objective of this study was to evaluate the accuracy and efficacy of using intraoperative inclinometers for THA. Methods This non-randomized control trial evaluated patients undergoing primary THA. Patients in the inclinometer group had an inclinometer used intraoperatively to measure acetabular component inclination, and patients in the control group had no inclinometer. Inclination and anteversion of the acetabular component were measured on postoperative radiographs. Results A total of 223 patients were included in the study. The mean inclination angle of the acetabular cup was significantly higher in the inclinometer group (43.9° vs. 41.5°, P

Published

2024

11. 天津蓟县地震台两套VP宽频带倾斜仪数据对比分析.

Author

赵黎明, 张明东, 彭钊, 王建国, and 李颖楠

Subjects

SEISMOGRAMS, SYSTEM failures, BEDROCK, OUTCROPS (Geology), INCLINOMETER

Abstract

Copyright of Progress in Earthquake Sciences is the property of China Earthquake Administration, Institute of Geophysics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

12. A Study on the Factors Controlling the Kinematics of a Reactivated and Slow-Moving Landslide in the Eastern Liguria Region (NW Italy) through the Integration of Automatic Geotechnical Sensors.

Author

Pepe, Giacomo, Musante, Barbara, Rizzi, Giovanni, Viola, Greta, Vigo, Andrea, Ghirotto, Alessandro, Armadillo, Egidio, and Cevasco, Andrea

Subjects

PORE water pressure, SENSOR placement, POSITION sensors, RAINFALL, LANDSLIDES, INCLINOMETER

Abstract

This paper deals with the investigation of factors influencing the movement patterns of a reactivated slow-moving landslide situated in the eastern Liguria region (NW Italy) through the analysis of extensive ground-based hydrological and geotechnical monitoring data. Subsurface horizontal displacement and pore water pressure data were acquired simultaneously by means of automatic sensors positioned at pre-existing and localized failure zones. The joint examination of field measurements enabled us to explore the connections between rain, pore water pressure, and displacements. The results of continuous displacement monitoring showed that the landslide kinematics involved phases of extremely slow movements alternated with periods of relative inactivity. Both stages occurred prevalently at seasonal scale displaying similar durations. The slow-motion phases took place at relatively constant pore water pressure and were ascribed to mechanisms of viscous shear displacements along failure surfaces. Inactive phases entailed no significant deformations, mostly corresponding to prolonged dry periods. The two motion patterns were interrupted by episodic sharp deformations triggered by delayed (preparation periods from 4 to 11 days) rainfall-induced pore water pressure peaks, which were ascribed to sliding mechanisms taking place through rigid-plastic frictional behaviour. During these deformation events, hysteresis relationships between pore water pressure and displacement were found, revealing far more complex hydro-mechanical behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

13. Monitoring Surface Deformations in a Fossil Landslide Zone and Identifying Potential Failure Mechanisms: A Case Study of Gümüşhane State Hospital.

Author

Alemdag, Selçuk, Yalvaç, Sefa, Bjelotomić Oršulić, Olga, Kara, Osman, Zeybek, Halil İbrahim, Bostanci, Hasan Tahsin, and Markovinović, Danko

Subjects

*GEODETIC techniques, *DEFORMATION of surfaces, *FINITE element method, *GLOBAL Positioning System, *STRUCTURAL health monitoring, *LANDSLIDES

Abstract

The escalating occurrence of landslides has drawn increasing attention from the scientific community, primarily driven by a combination of natural phenomena such as unpredictable seismic events, intensified precipitation, and rapid snowmelt attributable to climate fluctuations, compounded by inadequacies in engineering practices during site selection. Within the scope of this investigation, contemporary geodetic techniques using the GNSS were employed to monitor structural and surface deformations in and around a hospital edifice situated within an ancient fossil landslide region. Additionally, inclinometer measurements facilitated the determination of slip circle parameters. A subsequent analysis integrated these datasets to scrutinize both the hospital structure and its surrounding slopes. In addition to the finite element method, four different limit equilibrium methods (Bishop, GLE–Morgenstern–Price, Spencer, and Janbu) were used in the evaluation of stability. Since the safety number determined in all analyses was <1, it was determined that the slope containing the hospital building was unstable. The movement has occurred again due to the additional load created by the hospital building built on the currently stable slope, the effect of surface and groundwater, and the improperly designed road route. As a result of geodetic monitoring, it was determined that the sliding speed on the surface was in the N-E direction and was approximately 3 cm, and this situation almost coincided with inclinometer measurements. [ABSTRACT FROM AUTHOR]

Published

2024

14. Centrifuge modeling test on reactivation of ancient landslide under sudden drop of reservoir water and rainfall.

Author

Zhang, Qiang, Jia, Chaojun, Chen, Hongjie, Zheng, Yanni, and Cheng, Wei

Subjects

*PORE water pressure, *RAINFALL simulators, *EARTH pressure, *RAINFALL, *LANDSLIDES, *INCLINOMETER

Abstract

During the normal operation of the Huangdeng Hydropower Station's reservoir, many tensile cracks were observed on the surface of the bank slope below the elevation of 1805 m along the highway, causing significant damage to local residents' production and lives. On-site geological investigation, surface and inclinometer displacement monitoring were carried out, and the deformation characteristics of the Cheyiping landslide were analyzed. A controllable intensity rainfall simulator and a reservoir water level variation simulation system were designed in our laboratory. The lower section of the highway along the river in Cheyiping small village was chosen as the prototype, and a centrifuge model test of the reactivation of the Cheyiping ancient landslide induced by rainfall and reservoir water level fluctuations was performed. The characteristics of landslide deformation, pore water pressure, and earth pressure variation under the influence of rainfall and reservoir water level changes are investigated. The thorough analysis revealed that, even if the sliding surface is not deep, the sudden drop in reservoir water level remains the primary controlling factor of slope sliding. Because the permeability of the deposit is low, rainfall has a minor impact on this ancient landslide. The experimental results can be used to guide slope prevention and reservoir management in the Huangdeng Reservoir area. [ABSTRACT FROM AUTHOR]

Published

2024

15. Acquiring the High-Precision Spectrum of Track Irregularity by Integrating Inclination in Chord Methods: Mathematics, Simulation, and a Case Study.

Author

Wang, Pengjiao, Guo, Fengqi, Zhang, Hong, Jin, Junhui, Liao, Qiaoyun, and Yan, Yongfeng

Subjects

*PUBLIC transit, *INCLINOMETER, *SYSTEM dynamics, *COMPUTER simulation, *WAVELENGTHS

Abstract

Accurate measurement of track irregularity and the corresponding spectrum is essential for evaluating the performance of transportation systems. Chord measuring methods can achieve fine accuracy but are limited by waveform distortion and a restricted range of recoverable wavelength. To address this, this work explores the effectiveness of integrating inclination data in chord-based measurement to obtain a higher precision and more reliable spectrum. Firstly, the theoretical principles and mathematics of the proposed method are described. We demonstrate that by utilizing inclinometer sensors, the measuring reference can be maintained throughout the measurement, therefore obtaining an authentic waveform of track irregularity. Adaptive technics are employed to examine and extract cumulative components in the measured signal, which also benefits the accuracy of spectral estimation. Error analysis is then conducted by simulated sampling. Furthermore, a case study of field measurement and numerical simulation via multi-body dynamics for a monorail system is presented. The results verify the accuracy and robustness of the proposed method, showing that it provides a broader range of recoverable wavelength, minimum parametric interference, and advantages of signal authenticity. The simulation results prove the significant effects of track irregularity on the dynamic response of the monorail system, hence revealing the value of the presented methods and results. [ABSTRACT FROM AUTHOR]

Published

2024

16. Inclinometer use in primary total hip arthroplasty does not improve acetabular component positioning: a non-randomized control trial.

Author

Goldstein, Kyle, Tyndall, Wyatt, Nickol, Michaela E., and van der Merwe, Johannes M.

Subjects

HIP joint radiography, ACETABULUM surgery, PEARSON correlation (Statistics), TOTAL hip replacement, ACETABULUM (Anatomy), SURGERY, PATIENTS, BODY mass index, T-test (Statistics), BIOPHYSICS, CLINICAL trials, TREATMENT effectiveness, SURGICAL therapeutics, CHI-squared test, DESCRIPTIVE statistics, INTRAOPERATIVE care, JOINT dislocations, ARTIFICIAL joints, MEDICAL records, ACQUISITION of data, INTRACLASS correlation, DATA analysis software, RANGE of motion of joints, SCIENTIFIC apparatus & instruments, INTER-observer reliability, REGRESSION analysis, EVALUATION

Abstract

Introduction: Total hip arthroplasty (THA) is a common surgical procedure that aims to relieve pain, improve function, and increase mobility in patients with hip joint pathology. One of the most challenging aspects of THA is to determine the correct angle of the acetabular component's placement. Intraoperative inclinometers have emerged as a promising tool to obtain accurate measurements of the acetabular component's inclination. The primary objective of this study was to evaluate the accuracy and efficacy of using intraoperative inclinometers for THA. Methods: This non-randomized control trial evaluated patients undergoing primary THA. Patients in the inclinometer group had an inclinometer used intraoperatively to measure acetabular component inclination, and patients in the control group had no inclinometer. Inclination and anteversion of the acetabular component were measured on postoperative radiographs. Results: A total of 223 patients were included in the study. The mean inclination angle of the acetabular cup was significantly higher in the inclinometer group (43.9° vs. 41.5°, P < 0.001). This difference was not clinically significant. There was no significant difference in anteversion. There were no significant differences in the number of patients within the safe zones for inclination or anteversion, or in the number of patients experiencing a dislocation. No correlation was found between inclinometer measurement and measured acetabular component inclination. Inclinometer use and body mass index (BMI) were the sole statistically significant factors in determining acetabular component inclination. Conclusions: This study indicated no current benefit to inclinometer use during primary THA, as measured by inclination, anteversion, and dislocation rate. However, this might be confounded by subtle variations in patient positioning, which may be a strong area of study in the future. [ABSTRACT FROM AUTHOR]

Published

2024

17. Understanding slow-moving landslide triggering processes using low-cost passive seismic and inclinometer monitoring

Author

Fiolleau, Sylvain, Uhlemann, Sebastian, Wielandt, Stijn, and Dafflon, Baptiste

Subjects

Earth Sciences, Geophysics, Urban landslide, Monitoring, Ambient seismic noise, Inclinometer, Geomatic Engineering, Geochemistry & Geophysics, Geoinformatics, Environmental management

Abstract

Landslides are a major natural hazard, threatening communities and infrastructures worldwide. Mitigation of these hazards relies on understanding their causes and triggering processes, which critically depend on subsurface characteristics and their variations over time. In this study, we present a novel approach combining passive seismic and low-cost inclinometer monitoring methods to improve the understanding of landslide activation mechanisms and their controls. We evaluate the efficiency of this approach on a shallow, slow-moving landslide directly endangering a road bridge, a bridge that is part of an important emergency response route. Results show the value of combining the two approaches for observing and monitoring landslide hazards. Passive seismic monitoring captures the variation in soil properties (rigidity and density) over time by sensing the variations of the seismic wave velocity (dV/V and its associated correlation coefficient). At the same time, novel low-cost inclinometers are monitoring subsurface deformation (from millimetric to pluricentimetric scale) and temperature. Seismic precursors detected at the bottom sensor a few hours prior to the reactivation are followed by the reactivation of the landslide toe, releasing stresses in the top part that lead to the reactivation of the whole landslide. This reactivation occurs during an episode of heavy rainfall following a 7-month drought. Meanwhile, temperature monitoring enables us to track water infiltration and to highlight its role in the landslide mechanisms. Overall, the combination of the two monitoring methods shows promise for quantifying the sliding mechanisms of landslide reactivations and for designing landslide early warning systems.

Published

2023

18. Numerical Analysis on the Performance of Anchored Diaphragm Walls for a Deep Excavation in Hanoi

Author

Nguyen, Thanh Son, Nguyen, Quoc Khanh, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Duc Long, Phung, editor, and Dung, Nguyen Tien, editor

Published

2024

19. Capacitive Tilt Micro-Sensor

Author

Łuczak, Sergiusz, Zams, Maciej, Władziński, Michał, Pieńczuk, Paweł, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Ono, Yukinori, editor, and Kondoh, Jun, editor

Published

2024

20. Geotechnical Monitoring of Deep Shoring Adjacent to Train Infrastructure

Author

Szary, Jakub, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Krishna, A. Murali, editor, Banerjee, Subhadeep, editor, and Pitchumani, N. Kumar, editor

Published

2024

21. SBAS DInSAR and in situ monitoring of the Šumljak landslide (SW Slovenia) dynamics driven by rainfall and piezometric-level fluctuation

Author

Debevec Jordanova, Galena, Popović, Zdenka, Yastika, Putu Edi, Shimizu, Norikazu, Oštir, Krištof, and Verbovšek, Timotej

Published

2024

22. Development of High-Temperature Resistant Inclinometers for Structural Displacement Acquisition of the Buildings Subjected to Fire

Author

Li, Jinyu, Zhu, Shaojun, Ji, Wei, Li, Guo-Qiang, Wang, Yao, and Qi, Honghui

Published

2024

23. Can the use of a free mobile phone inclinometer application improve the accuracy of coronal cup position during total hip arthroplasty?

Author

Bibek Banskota, Rajendra Aryal, Ansul Rajbhandari, Deependra Yadav, and Ashok K. Banskota

Subjects

Total hip arthroplasty, Acetabular inclination, Inclinometer, Orthopedic surgery, RD701-811

Abstract

Background: Accurate acetabular cup positioning during THA has essential implications for function and long-term prosthesis survival. Low-volume hip arthroplasty surgeon is known to be a risk factor for malpositioning of the acetabular cup. Also, even in a low-volume setting, the surgeon may be required to perform hip arthroplasty for complex primary or revision cases. Thus, any adjunct that has the potential to improve accuracy during surgery should be encouraged to avoid cup malposition and its long-term problems. Methods: A year-long (Jan-2021 to Jan-2022) descriptive cross-sectional study was carried out on all patients receiving primary total hip arthroplasty (THA) at B&B hospital. Results: There were 36 patients (36 hips) with an average age of 48.53 years (SD 48.53 ± 15.02). There were 21 (58.33 %) males and 15 (41.67 %) females, and the right and left hips were involved in 18 patients each. All acetabular cups were uncemented. The inferential analysis indicated no statistically significant difference in the measurements obtained through the two methods, as reflected by a p-value of 0.99 at a 95 % confidence interval. Conclusion: The present study compared the values of acetabular inclination measured during surgery using a mobile phone inclinometer application with post-operative values calculated using a standard anteroposterior radiograph of the pelvis to ascertain if the inclinometer app is reliable in predicting the final acetabular inclination. We believe this will provide the surgeon with a safeguard during surgery to achieve the desired acetabular cup inclination.

Published

2025

24. Hybrid Vibration Sensor for Equipment Monitoring and Diagnostics.

Author

Bryakin, Ivan V., Bochkarev, Igor V., Khramshin, Vadim R., and Gasiyarov, Vadim R.

Subjects

*GEOMAGNETISM, *DETECTORS, *ROTATIONAL motion, *INCLINOMETER, *MODE shapes

Abstract

Vibration diagnostics based on vibroacoustic signal data belong to the most common ways to monitor the technical condition of equipment and technical structures. The paper considers the general issues of vibration-based diagnostics and shows that in general, it is required to monitor both axial and torsional oscillations, as well as the inclination angle, occurring during the operation of various technical objects. To comprehensively monitor these parameters, a hybrid vibration sensor is proposed, simultaneously implementing three operating modes: recording linear displacements of the vibrating object; recording the rotation angle of the object at its torsional oscillations; recording the object angular deviation from the vertical component of the natural local geomagnetic field, i.e., the inclinometer mode. The proposed hybrid sensor design is described, and a theoretical analysis of the sensor's operation in each of the aforementioned operating modes is performed. The authors show that in the inclinometer mode the sensor actually operates as a fluxgate meter. Generalizing the results of the sensor's operation simultaneously in all three operating modes, an equation for the total output data signal has been obtained, which allows for obtaining the required information on the current values of linear displacements and rotation and inclination angles by selectively filtering it with respective three filters tuned to specific frequencies. The experimental studies of the proposed hybrid vibration sensor confirmed its ability to record various vibrational disturbances and changes in the inclination angle of the monitored object. [ABSTRACT FROM AUTHOR]

Published

2024

25. Instrumental Monitoring of a Slow-Moving Landslide in Piedmont (Northwest Italy) for the Definition of Rainfall Thresholds.

Author

Bonasera, Mauro, Taboni, Battista, Caselle, Chiara, Acquaotta, Fiorella, Fubelli, Giandomenico, Masciocco, Luciano, Bonetto, Sabrina Maria Rita, Ferrero, Anna Maria, and Umili, Gessica

Subjects

*LANDSLIDES, *RAINFALL, *NATURAL disaster warning systems, *SYNTHETIC aperture radar, *GROUND motion, *GEOLOGICAL modeling, *LANDSLIDE prediction

Abstract

The prediction and prevention of landslide hazard is a challenging topic involving the assessment and quantitative evaluation of several elements: geological and geomorphological setting, rainfalls, and ground motion. This paper presents the multi-approach investigation of the Nevissano landslide (Asti Province, Piedmont, NW Italy). It shows a continuous and slow movement, alongside few paroxysmal events, the last recorded in 2016. The geological and geomorphological models were defined through a field survey. An inventory of the landslide's movements and rainfall records in the period 2000–2016 was performed, respectively, through archive investigations and the application of "Moving Sum of Daily Rainfall" method, allowing for the definition of rain thresholds for the landslide activation (105 mm and 193 mm, respectively, in 3 and 30 days prior to the event). The displacements over the last 8 years (2016–2023) were monitored through an innovative in-continuum monitoring inclinometric system and Earth Observation (EO) data (i.e., relying on Interferometric Synthetic Aperture Radar, or InSAR data): it gave the opportunity to validate the rainfall thresholds previously defined. This study aims to provide information to public authorities for the appropriate management of the site. Moreover, the proposed workflow could be adopted as a guideline for investigating similar situations. [ABSTRACT FROM AUTHOR]

Published

2024

26. Diaphragm Wall Deformation Behavior and Inclinometer Data Analysis for Braced Deep Excavations.

Author

Zhao, Huajing, Shen, Xiaoming, Jia, Pengjiao, and Zhou, Xiaoqi

Subjects

*DIAPHRAGM walls, *INCLINOMETER, *EXCAVATION, *WATERLOGGING (Soils), *DATA analysis, *BUILDING sites

Abstract

Concrete diaphragm walls (CDWs) are widely used as support for deep excavations in saturated soft soils with sensitive construction environments. The lateral deformation of the CDWs is typically measured by inclinometers cast in the wall. This paper discusses the evolution of the lateral deformation of the CDWs during deep excavation and the main sources of errors in inclinometer measurements. Furthermore, a correction method for the most influential errors is proposed. It is found that the multilevel supported CDWs generally experience three types of deformations during the excavation: cantilever, transition, and bulging. Accordingly, the joint error correction method for inclinometer readings can be operated efficiently to reprocess the monitored data, using total station measurement as a cross-reference. Based on the case studies of deep excavation projects located in Suzhou, China, the proposed error correction method has been demonstrated to perform satisfactorily and can assist in guiding key safety control decisions on construction sites. [ABSTRACT FROM AUTHOR]

Published

2024

27. Assel 轧管机辗轧角测量方法及其工程应用.

Author

刘 杰, 欧阳建, 穆 东, and 罗正川

Abstract

Copyright of Steel Pipe is the property of Steel Pipe Magazine and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. Sagittal Pelvic Tilt Directly Influences the Ischiofemoral Space: A Cadaveric Study.

Author

Spencer-Gardner, Luke, Nunley, Brandon, Gómez-Hoyos, Juan, Wells, Joel, and Khoury, Anthony N.

Subjects

MEDICAL research, HEALTH care industry, ORTHOPEDICS, INCLINOMETER, FEMORACETABULAR impingement

Abstract

Background: Ischiofemoral impingement (IFI) is understood to be a pain generator in the deep gluteal space. Femoral position is known to influence the ischiofemoral space (IFS), but there has been no study examining the effect of sagittal pelvic tilt on the IFS. The purpose of this study was to determine whether changes in pelvic tilt in the sagittal plane lead to changes in the dimensions of the IFS. Materials and Methods: Five fresh frozen cadavers (10 hips) were used for this anatomic study. The specimens were skeletonized and placed in the prone position with the pelvis fixed to a custom-built hinged table. A digital inclinometer was used to tilt the pelvis −10°, 0°, and 10° simulating posterior, neutral, and anterior pelvic tilt, respectively. Digital calipers were used to measure the dimensions of the IFS in all three positions of sagittal pelvic tilt. Results: Changes in pelvic tilt resulted in significant changes in the dimensions of the IFS. Mean IFS dimensions measured 29.3±9.7 mm, 37.2±9.0 mm, and 24.3±9.2 mm in the neutral, anterior, and posterior pelvic tilt positions, respectively (P<.0001). Conclusion: Changes in sagittal pelvic tilt influence the dimensions of the IFS, with posterior pelvic tilt noted to significantly decrease the IFS when compared with neutral and anterior pelvic tilt. These findings suggest that further evaluation of sagittal spinopelvic balance in the etiology of symptomatic IFI may be warranted. [Orthopedics. 2024;47(3):167–171.] [ABSTRACT FROM AUTHOR]

Published

2024

29. Impact of Minimally Invasive Intra-Capsular Metatarsal Osteotomy on Plantar Pressure Decrease: A Cross-Sectional Study.

Author

Fernández-Vizcaino, Carlos, Naranjo-Ruiz, Carmen, Fernández-Ehrling, Nadia, García-Vicente, Sergio, Nieto-García, Eduardo, and Ferrer-Torregrosa, Javier

Subjects

*OSTEOTOMY, *CROSS-sectional method, *VISUAL analog scale, *METATARSALGIA, *INCLINOMETER

Abstract

Background: Metatarsalgia is a common pathology that is initially treated conservatively, but failure to do so requires surgery, such as the minimally invasive distal metatarsal osteotomy (DICMO). Methods: In this prospective study of 65 patients with primary metatarsalgia who underwent DICMO, plantar pressures, American Orthopaedic Foot and Ankle Society MetaTarsoPhalangeal-InterPhalangeal scale (AOFAS-MTP-IP) and Visual Analog Scale (VAS) were evaluated pre-operatively and post-operatively and there was a subgroup in which an inclinometer was used to observe the importance of the inclination of the osteotomy. Results: The results show a significant reduction in plantar pressures after DICMO surgery without overloading the adjacent radii, especially in the subgroup with an inclinometer to guide the osteotomy. The AOFAS-MTP-IP scale evidenced a marked improvement in metatarsal function and alignment with scores close to normal. The VAS scale showed a substantial decrease in pain after DICMO osteotomy. Conclusions: DICMO, with an inclinometer for a 45° osteotomy, proved to be a safe and effective procedure for primary metatarsalgia, although further comparative studies are needed to confirm its superiority. [ABSTRACT FROM AUTHOR]

Published

2024

30. Shoulder Proprioception: A Review.

Author

Fox, Jake A., Luther, Lauren, Epner, Eden, and LeClere, Lance

Subjects

*GONIOMETERS, *PROPRIOCEPTION, *MUSCLE strength testing, *ROTATOR cuff, *SHOULDER joint, *MOTION capture (Human mechanics), *SPORTS re-entry

Abstract

The purpose of this review is to provide a comprehensive resource for shoulder proprioception assessment and its integration into clinical decision making as well as targeted rehabilitation protocols. Data for this review were acquired from peer-reviewed articles from computerized online databases, namely PubMed and Medline, published between 1906 and 2021. The development of digital/smart phone goniometers can improve shoulder joint range of motion (ROM) measurements and demonstrate comparable measurement accuracy to the universal standard goniometer. The inclinometer offers a portable and cost-effective method for measuring shoulder joint angles and arcs of motion in the vertical plane. Two types of dynamometers, the computerized isokinetic machine and the handheld hydraulic dynamometer, are reliable tools for objective shoulder rotator cuff strength assessment. Motion analysis systems are highly advanced modalities that create three-dimensional models of motion arcs using a series of cameras and reflective beads, offering unparalleled precision in shoulder proprioception measurement; however, they require time-consuming calibration and skilled operators. Advancements in wearable devices and compact mobile technology such as iPhone applications may make three-dimensional motion analysis more affordable and practical for outpatient settings in the future. The complex interplay between proprioception and shoulder dysfunction is not fully understood; however, shoulder proprioception can likely both contribute to and be caused by shoulder pathology. In patients with rotator cuff tears, glenohumeral osteoarthritis, and shoulder instability, clinicians can track proprioception to understand a patient's disease progression or response to treatment. Finally, rehabilitation programs targeting shoulder proprioception have shown promising initial results in restoring function and returning athletes to play. [ABSTRACT FROM AUTHOR]

Published

2024

31. Development of a standalone delivery sequence model for proton arc therapy.

Author

Liu, Gang, Zhao, Lewei, Liu, Peilin, Yan, Di, Deraniyagala, Rohan, Stevens, Craig, Li, Xiaoqiang, and Ding, Xuanfeng

Subjects

*PROTON therapy, *MEDICAL research personnel, *ELECTRIC arc, *PROTON beams, *INCLINOMETER, *TEST methods

Abstract

Background: Spot‐scanning proton arc (SPArc) has been drawing significant interests in recent years because of its capability of continuous proton irradiation during the gantry rotation. Previous studies demonstrated SPArc plans were delivered on a prototype of the DynamicARC solution, IBA ProteusONE. Purpose: We built a novel delivery sequence model through an independent experimental approach: the first SPArc delivery sequence model (DSMSPArc). Based on the model, we investigated SPArc treatment efficiency improvement in the routine proton clinical operation. Methods: SPArc test plans were generated and delivered on a prototype of the DynamicARC solution, IBA ProteusONE. An independent gantry inclinometer and the machine logfiles were used to derive the DSMSPArc. Seventeen SPArc plans were used to validate the model's accuracy independently. Two random clinical operation dates (6th January and 22nd March, 2021) from a single‐room proton therapy center (PTC) were selected to quantitatively assess the improvement of treatment efficiency compared to the IMPT. Results: The difference between the logfile and DSMSPArc is about 3.2 ± 4.8%. SPArc reduced 58.1% of the average treatment delivery time per patient compared to IMPT (p < 0.01). Daily treatment throughput could be increased by 30% using SPArc using a single‐room proton therapy system. Conclusions: The first model of dynamic arc therapy is established in this study through an independent experimental approach using logfiles and measurements which allows clinical users and investigators to simulate the dynamic treatment delivery and assess the daily treatment throughput improvement. [ABSTRACT FROM AUTHOR]

Published

2024

32. 双矢量定姿在煤矿掘进机姿态测量中的应用.

Author

徐叶倩, 黄喆, 沈小玲, 赵世艺, 李佳雄, and 王浩森

Abstract

In view of the problems of high-cost and accumulation of errors in the existing attitude measurement methods of roadheader, an attitude measurement algorithm based on the principle of double-vector attitude determination is proposed. By constructing and sensing the gravity-vector and light-vector respectively in the roadway excavation environment, using inertial inclination measurement and binocular vision measurement techniques, the attitude of the roadheader carrier coordinate frame relative to the roadway navigation coordinate frame can be realized based on the mathematical expression of vector elements in the navigation coordinate frame and the roadheader carrier coordinate frame. A measuring device that consists of an inclinometer and a binocular camera measures the indicated laser and gravity-vectors, and then the attitude of the roadheader can be solved using the double-vector attitude determination algorithm. The static repeatability measurement experiment is designed, and the experimental results show that the repeatability measurement precision of the attitude angles is 0.066 2°. The simulation analysis of the errors that may be introduced using the Monte Carlo method, which shows that the effect of the errors on the yaw, pitch and roll angles are 0.786 4°, 0.454 8° and 0.476 5°, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

33. Effects of muscle energy techniques versus corrective exercise programme on pain, range of motion and function in patients with upper cross syndrome: a randomised clinical trial.

Author

Hanif, Arooj, Ahmad, Ashfaq, Arslan, Syed Asad Ullah, Asghar, Momna, Zaheer, Anna, and Shafiq, Hira

Subjects

SHOULDER girdle, PHYSICAL therapy, INCLINOMETER, SPORTS medicine, SHOULDER joint range of motion

Abstract

Introduction. Upper crossed syndrome (UCS) is a common musculoskeletal issue that includes the dysfunctional tone of the muscles in the shoulder girdle or cervicothoracic region. The objective of the current study is to compare the effects of muscle energy techniques with the National Academy of Sports Medicine-based exercise protocol on pain, range of motion, and disability in patients with UCS. Methods. it was a single-blinded randomised clinical trial carried out in the Physiotherapy department of the University of Lahore Teaching Hospital, Pakistan. Fifty patients with upper cross syndrome aged between 20 to 35 years were randomly allocated into two groups: group A (routine physical therapy combined with muscle energy techniques) and group B (routine physical therapy combined with the National Academy of Sports Medicine-based exercise protocol) for three sessions per week for total 8 weeks. data were collected at baseline, 4th, 8th, and 12th week for assessing the long-term effects of the treatment protocol as well. The Visual Analogue Scale, Neck disability index, and an inclinometer were used to measure the pain, disability, and range of motion of the cervical region, respectively. The data was analysed using SPSS version 23.0 (iBM, New York, USA). Results. out of 50 participants, 30 were male and 20 were female. The mean age of all the participants in experimental group A was 29.76 ± 2.89 and that in experimental group B was 30.56 ± 2.48. At the 4th, 8th, and 12th week, pain and disability were significantly (p-value < 0.05) reduced and cervical range of motion was significantly (p-value < 0.05) improved within both groups. After 8 weeks of treatment, a significant between-group difference was seen in favour of group A in terms of cervical range of motions (flexion, extension, rotation, and side bending) with p-values of less than 0.05 and in favour of group B in terms of pain (p-value 0.03) and disability (p-value 0.04) was seen. These differences were maintained at the 12th week follow-up as well. Conclusions. This study concluded that both NASM (National Academy of Sports Medicine-based exercise protocol) and METs (muscle energy techniques) are effective treatment options for people with upper cross syndrome. it was also concluded that METs are more effective in improving Range of motion (RoM), while the NASM-based exercise protocol is more effective in improving symptoms of pain and neck-related disability. [ABSTRACT FROM AUTHOR]

Published

2024

34. Landslide monitoring based on GNSS and automated inclinometer systems and dynamic modeling using SPH: a case study in Qinghai, China.

Author

Hu, Man, Ren, Yi, Xiao, Leyuan, Liu, Xiangyu, Tan, Qiuting, Han, Hongju, and Guo, Jiping

Subjects

LANDSLIDES, GLOBAL Positioning System, HAZARD mitigation, NATURAL disaster warning systems, DYNAMICAL systems, EMERGENCY management, DEBRIS avalanches, INCLINOMETER

Abstract

Landslide deformation monitoring is crucial for early warning and disaster prevention. This study presents a comprehensive landslide monitoring approach using global navigation satellite systems (GNSS) and automated inclinometers through a case study in Qinghai, China. Numerical modeling utilizing smoothed particle hydrodynamics (SPH) predicted potential hazards from dynamic landslide movements. The results demonstrate that the combination of GNSS and automated inclinometer systems provides accurate and real-time data on landslide movements, enabling timely responses to mitigate the risks associated with landslides. Monitoring results demonstrate active deformation of Zone III with sliding velocities up to 2.5 mm/day and deep subsurface displacement along bedrock shear planes at 14–26 m depths. SPH simulations predict a maximum run out of 115 m over 50 s for potential slope failure under a Ms 7.0 earthquake, with debris flows capable of blocking the river channel and inducing secondary hazards. Additionally, the numerical modeling using SPH provides useful insights into the potential hazard of landslides, which can be used to develop more effective mitigation strategies in the future. The findings of this study contribute to the development of a more holistic and effective approach to landslide monitoring and management. [ABSTRACT FROM AUTHOR]

Published

2024

35. Thoracic Spine Mobility and Posture: Correlation and Predictive Values in Physically Independent Older Adults.

Author

de Sousa Almeida, Ana Paula, Matsui, Edine Kavano Kitahara, da Silva, Fabio Nascimento, de Oliveira Vasconcelos, Fernanda Borges, and de Oliveira, Márcio Rogério

Abstract

The posture undergoes changes during aging and may serve as a marker for the evaluation of the thoracic spine. This study aimed to correlate the variables for the evaluation of thoracic spine mobility and propose predictive equation models from the measurements of the thoracic Schober test and the digital inclinometer in older adults. The mobility of thoracic flexion and extension by levels (T1, T8 and T12) of 41 older adult subjects (66 ± 7 years) was quantified with a digital inclinometer (degrees) and Schober's test (cm). There was a moderate positive correlation between the digital inclinometer and the Schober test at T1 (r =.69), T12 (r =.60), and total flexion levels T1 to T12 (r =.74). Simple linear regression equations showed that thoracic Schober predicts thoracic mobility measures for these same levels. Moderate to strong correlations were observed between the inclinometer and the Schober Test measurements. The development of predictive equation models based on the thoracic Schober test could potentially enhance the ability to predict spinal mobility in physically independent older adults. [ABSTRACT FROM AUTHOR]

Published

2024

36. Comparison of Lower Extremity Alignment among Taekwondo Athletes of Various Subdisciplines.

Author

Han, Mi-ock, Chang, Eun-wook, and Jun, Hyung-pil

Subjects

TAE kwon do, ATHLETES, KNEE, INCLINOMETER, BOXING

Abstract

Background and Objectives: Studies analyzing lower extremity alignment (LEA) LEA among taekwondo subdisciplines athletes are lacking. This study compared LEA in the dominant and nondominant legs intaekwondo athletes. Materials and Methods: Twelve measurements of LEA were analyzed for 157 athletes (63 sparring, 50 demonstration, and 44 poomsae athletes) registered with the Korea Taekwondo Association. LEA was measured in the standing, supine, and prone positions using alignment application, a goniometer, a bubble inclinometer, a height gage, and a palpation meter. Results: The analysis revealed that the dominant leg of poomsae athletes showed greater genu valgum alignment than that of sparring athletes (p < 0.01), whereas the dominant leg of sparring athletes showed greater rearfoot varum alignment than that of demonstration athletes (p < 0.01). Furthermore, the nondominant leg of poomsae athletes showed greater genu valgum alignment than that of sparring and demonstration athletes (p < 0.01), whereas the nondominant leg of sparring athletes showed greater rearfoot varum alignment than that of demonstration athletes (p < 0.01). In addition, demonstration athletes had better forefoot varus alignment than poomsae athletes (p < 0.01). Conclusions: This study revealed that LEA characteristics vary among taekwondo athletes according to their subdiscipline. The results of this study would help in designing training programs tailored to each subdiscipline that would best address their LEA characteristics and help to prevent injuries. [ABSTRACT FROM AUTHOR]

Published

2024

37. Improving the Accuracy of Metatarsal Osteotomies in Minimally Invasive Foot Surgery Using a Digital Inclinometer: Preliminary Study.

Author

Fernández-Vizcaino, Carlos, Nieto-García, Eduardo, Fernández-Ehrling, Nadia, and Ferrer-Torregrosa, Javier

Subjects

*FOOT, *MINIMALLY invasive procedures, *METATARSUS, *INCLINOMETER

Abstract

Minimally invasive foot surgery (MIS) has become a common procedure to treat various pathologies, and accuracy in the angle of metatarsal osteotomies is crucial to ensure optimal results. This randomized controlled trial with 37 patients investigates whether the implementation of a digital inclinometer can improve the accuracy of osteotomies compared to traditional freehand techniques. Patients were randomly allocated to group A (n = 15) receiving inclinometer-assisted surgery or group B (n = 22) receiving conventional surgery. Osteotomies were performed and outcomes were evaluated using an inclinometer. The inclinometer group showed a significant decrease in plantar pressure from 684.1 g/cm2 pretreatment to 449.5 g/cm2 post-treatment (p < 0.001, Cohen's d = 5.477). The control group decreased from 584.5 g/cm2 to 521.5 g/cm2 (p = 0.001, Cohen's d = 0.801). The effect size between groups was large (Cohen's d = −2.572, p < 0.001). The findings indicate a significant improvement in accuracy and reduction in outliers when using an inclinometer, suggesting that this technology has the potential to improve surgical practice and patient outcomes in minimally invasive metatarsal osteotomies. [ABSTRACT FROM AUTHOR]

Published

2024

38. Measuring Table Tilts-Trigonometry and Electronics.

Author

J., Geetha, M., Andrews, and Srinandhini, S.

Subjects

*ORTHOSTATIC intolerance, *MATHEMATICAL formulas, *TILT-table test, *INCLINOMETER, *TRIGONOMETRY

Abstract

INTRODUCTION The main purpose of tilt table testing (TTT) is to determine the underlying cause of orthostatic intolerance, near-fainting episodes, and unexplained syncope. The aim of present study is to measure table tilt using trigonometry and electronic medium. MATERIAL AND METHODS The present prospective study was done among 25 patients undergoing pelvic surgery at tertiary care centre during the study period of one year. Inclinometer, bubble app and mathematical formula were used to measure the tilt. Results were analyzed using SPSS version 25.0. RESULTS The mean age of patients in our study was 37.8±5.9 years. The Mean ± SD angle measured by three methods were 13.1±2.8 degree by inclinometer, 13.2±2.6 degree by bubble app and 13.1±2.6 degree by mathematical formula and results were significant with p value .000. CONCLUSION All the three methods were easy to use and were efficient in measuring table tilt with almost same results. [ABSTRACT FROM AUTHOR]

Published

2024

39. Enhancing the Accuracy of Low-Cost Inclinometers with Artificial Intelligence.

Author

Lozano, Fidel, Emadi, Seyyedbehrad, Komarizadehasl, Seyedmilad, Arteaga, Jesús González, and Xia, Ye

Subjects

INCLINOMETER, ARTIFICIAL intelligence, STRUCTURAL health monitoring, MEASURING instruments, STEEL framing

Abstract

The development of low-cost structural and environmental sensors has sparked a transformation across numerous fields, offering cost-effective solutions for monitoring infrastructures and buildings. However, the affordability of these solutions often comes at the expense of accuracy. To enhance precision, the LARA (Low-cost Adaptable Reliable Anglemeter) system averaged the measurements of a set of five different accelerometers working as inclinometers. However, it is worth noting that LARA's sensitivity still falls considerably short of that achieved by other high-accuracy commercial solutions. There are no works presented in the literature to enhance the accuracy, precision, and resolution of low-cost inclinometers using artificial intelligence (AI) tools for measuring structural deformation. To fill these gaps, artificial intelligence (AI) techniques are used to elevate the precision of the LARA system working as an inclinometer. The proposed AI-driven tool uses Multilayer Perceptron (MLP) to glean insight from high-accuracy devices' responses. The efficacy and practicality of the proposed tools are substantiated through the structural and environmental monitoring of a real steel frame located in Cuenca, Spain. [ABSTRACT FROM AUTHOR]

Published

2024

40. Research and application of a flexible measuring array for deep displacement of landslides.

Author

Li, Yang, Li, Zhong, Guo, Qifeng, Liu, Yimin, and Zhang, Daji

Subjects

*EMERGENCY management, *COAXIAL cables, *MAGNETIC sensors, *MAGNETIC fields, *INCLINOMETER

Abstract

The multidimensional and multi-sliding surface measurement of deep-seated displacement on landslides poses a significant technical challenge in landslide monitoring and early warning. The fixed-borehole inclinometer serves as an important measurement method based on drilling for this purpose. In this study, a novel flexible measurement array for deep-seated landslide displacement and its installation and measurement processes were developed, enabling higher accuracy in full-hole multidimensional deformation measurement. The measurement array consists of individual measurement probes as basic units, connected in series through coaxial cables and high-pressure rubber hoses, forming a flexible measurement array. Each probe is equipped with acceleration and magnetic field sensors, allowing for the measurement of borehole inclination and azimuth angles and providing a more comprehensive understanding of the deformation of deep-seated landslides. This flexible measurement array resolves the limitations of traditional fixed inclinometers, such as limited probe quantity or inaccurate installation positions that fail to reflect the deformation trend of the landslide body. Moreover, it eliminates the need for auxiliary installation accessories like pulleys and inclinometer pipes, simplifying the mechanical structure and installation process, which represents an advancement in methodology and an improvement in measurement techniques. This array provides a more comprehensive and improved monitoring tool for disaster prevention and mitigation, thereby enhancing the level of geological hazard monitoring and early warning technology. [ABSTRACT FROM AUTHOR]

Published

2024

41. Investigation on fiber optic inclinometer for inclination measurement based on SMS fiber.

Author

Bayuwati, D., Mulyanto, I., Suryadi, Setiono, A., and Widiyatmoko, B.

Subjects

*SEMICONDUCTOR lasers, *INCLINOMETER, *SINGLE-mode optical fibers, *FIBERS, *ELECTROMAGNETIC interference, *FIBER testing

Abstract

The single-mode-multimode-single-mode (SMS) fiber devices has been known as promising sensor devices and used modal interference among guided modes of the multimode fiber in its operation, with basic advantages such as its simple structure, immunity to electromagnetic interference (EMI) and ease of fabrication. The SMS fiber structure consists of a length of multimode fiber which is spliced between two single-mode fibers. This paper describes the investigation on fiber optic inclinometer for slope measurement based on SMS fiber. The inclinometer consists of a diode laser at wavelength of 1310 nm which is launched to the SM fiber, SMS fiber structure, housing system, light detection system and output display. The power output changes when there is a slope of sensor housing because the SMS fiber sensor experiences a macro bending effect and the magnitude of the change in power is proportional to the value of the slope. The SMS fiber sensor calibration test and the SMS fiber inclinometer performance test have been performed by measuring the change in light output for a series of slope variations imposed on the sensor. [ABSTRACT FROM AUTHOR]

Published

2023

42. Monitoring Surface Deformations in a Fossil Landslide Zone and Identifying Potential Failure Mechanisms: A Case Study of Gümüşhane State Hospital

Author

Selçuk Alemdag, Sefa Yalvaç, Olga Bjelotomić Oršulić, Osman Kara, Halil İbrahim Zeybek, Hasan Tahsin Bostanci, and Danko Markovinović

Subjects

landslide, LE and FEM-SSR methods, inclinometer, geodetic monitoring, GNSS, Chemical technology, TP1-1185

Abstract

The escalating occurrence of landslides has drawn increasing attention from the scientific community, primarily driven by a combination of natural phenomena such as unpredictable seismic events, intensified precipitation, and rapid snowmelt attributable to climate fluctuations, compounded by inadequacies in engineering practices during site selection. Within the scope of this investigation, contemporary geodetic techniques using the GNSS were employed to monitor structural and surface deformations in and around a hospital edifice situated within an ancient fossil landslide region. Additionally, inclinometer measurements facilitated the determination of slip circle parameters. A subsequent analysis integrated these datasets to scrutinize both the hospital structure and its surrounding slopes. In addition to the finite element method, four different limit equilibrium methods (Bishop, GLE–Morgenstern–Price, Spencer, and Janbu) were used in the evaluation of stability. Since the safety number determined in all analyses was

Published

2024

43. Types of Instruments

Author

Bo, Myint Win, Barrett, Jeffrey, Bo, Myint Win, and Barrett, Jeffrey

Published

2023

44. Ankle Joint Range of Motion Evaluation (ROM) Using Smartphone Calculators

Author

Quaranta, Marco, Oliva, Francesco, Maffulli, Nicola, Lane, John G., editor, Gobbi, Alberto, editor, Espregueira-Mendes, João, editor, Kaleka, Camila Cohen, editor, and Adachi, Nobuo, editor

Published

2023

45. Slope Inclinometers: Qualitative Evaluation of Probe Inclinometer Data—An Update

Author

Coimbra, Luís, Salgado, Francisco, Meixedo, João Paulo, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, O. Gawad, Iman, Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Chaminé, Helder I., editor, and Fernandes, José Augusto, editor

Published

2023

46. 3D Dynamic Problems for Three-Layered Shells with Delamination Between the Layers

Author

Aghalovyan, Lenser, Ghulghazaryan, Lusine, Hambardzumyan, Parandzem, Öchsner, Andreas, Series Editor, da Silva, Lucas F. M., Series Editor, Altenbach, Holm, Series Editor, Prikazchikov, Danila, editor, and Nobili, Andrea, editor

Published

2023

47. Monitoring of Hydraulic Structure: Problem and Approach

Author

Kühne, Charly, Stephan, Christoph, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Rizzo, Piervincenzo, editor, and Milazzo, Alberto, editor

Published

2023

48. A testbed for heliostat facets alignment by target reflection.

Author

Lozano-Cancelas, Adrián, Gómez, Carlos M., Morales-Sánchez, Rodrigo, Sánchez-González, Alberto, and Castillo, José Carlos

Subjects

*HELIOSTATS, *INCLINOMETER, *MICROMETERS, *SCREWS, *LASERS

Abstract

This work describes a lab-scale testbed designed and built to assess a heliostat canting detection technique based on target reflection. The installation consists of two structures supporting; 1) target facet and camera, and 2) object facet. The testbed integrates a high-resolution camera connected to a computer to detect canting errors. Other equipment includes a laser alignment system, micrometer screws for canting adjustment, and an inclinometer for camera levelling. Additionally, the testbed incorporates a wireless camera control system to remotely adjust the camera zooming and focusing via a web interface. [ABSTRACT FROM AUTHOR]

Published

2023

49. Comparative Analysis of Measurement Results with Data and Platform Inclinometers at the North Caspian Field.

Author

Kuzmin, Yu. O., Kuzmin, D. K., and Fattakhov, E. A.

Subjects

*INCLINOMETER, *COMPARATIVE studies, *POROELASTICITY, *GLOBAL Positioning System, *GEOPHONE, *DATA analysis, *OCEAN bottom

Abstract

The article presents the results of a detailed spatiotemporal comparative analysis of the data obtained by platform and bottom inclinometers at the V. Filanovsky field. The slope spectra obtained by the platform inclinometers fundamentally do not coincide with the data of the bottom sensors. It turned out that platform inclinometers effectively detect exogenic deformation effects and hardly identify deformations of the seabed associated with field development processes. Using the geomechanical poroelastic inclusion model, the authors mathematically modeled the spatial distribution of the seabed slopes during a period of intensive water injection into the developed reservoir. The proposed model shows that only the system of bottom inclinometers is a geodynamic monitoring element. It is concluded that sensor systems installed only on the platforms themselves (accelerometers, inclinometers, GNSS) do not pertain to geodynamic monitoring systems (geodynamic survey areas) and cannot ensure safe and rational subsurface use. [ABSTRACT FROM AUTHOR]

Published

2023

50. A novel rapid measurement method of cervical sagittal parameters based on the integrated inclinometer of a smartphone: a validity and reliability study.

Author

Huang, Tianji, Zhang, Chunyang, Han, Zhenghan, Zhong, Weiyang, Zhao, Zenghui, Zhu, Yong, Luo, Xiaoji, and Zhang, Jie

Subjects

PICTURE archiving & communication systems, INCLINOMETER, SMARTPHONES, INTER-observer reliability, CERVICAL vertebrae, SAGITTAL curve

Abstract

Objectives: A new method was introduced using a smartphone's integrated inclinometer for rapid measurement of sagittal cervical parameters. The present study aims to compare the validity and reliability of the proposed method. Methods: We retrospectively reviewed 120 patients with cervical spondylosis treated at our hospital. The C0-2 Cobb angle, C2-7 Cobb angle, T1-slope (T1S), and neck tilt (NT) were selected as representative sagittal angles for this study. Two methods, the smartphone's integrated inclinometer and picture archiving and communication system (PACS), were used to measure these four representative angles. Validity, reliability, and measurement times were recorded and compared. Results: The representative parameters (C0-2 Cobb angle, C2-7 Cobb angle, T1S, and NT), the ICC was 0.957 (0.939–0.970), 0.971 (0.958–0.979), 0.974 (0.963–0.982) and 0.949 (0.927–0.964) for validity respectively. For the aforementioned representative parameters, the ICC values were 0.972 (0.960–0.980), 0.979 (0.969–0.985), 0.972 (0.959–0.980), 0.942 (0.917–0.959) for intraobserver reliability respectively. For the representative parameters mentioned above, the ICC values were 0.947 (0.926–0.963), 0.964 (0.949–0.975), 0.956 (0.938-0.969), 0.916 (0.881–0.940) for interobserver reliability respectively. For the validity of the representative parameters mentioned above, the Bland-Altman plot displayed a mean difference of 0.2, 0.1, 0.1, and 0.4°with a 95% CI of 4.3, 4.5, 3.4, and 4.1°, respectively. The measurement by smartphone's integrated inclinometer (46.31 ± 3.99 s) was significantly quicker than that by PACS (69.48 ± 3.25 s) according to independent-samples T test (p < 0.001). Conclusion: This novel smartphone measurement based on the integrated inclinometer is accurate and reliable for measuring cervical sagittal parameters rapidly and conveniently. Sagittal parameters of the cervical spine have been widely applied in many types of spinal disorders for disease diagnosis, assessment, classification, treatment choice, and follow-up, so accurate, rapid, and convenient measurement of cervical sagittal parameters is important. Traditional measurement of sagittal parameters of the cervical spine have their own disadvantages. This novel smartphone measurement based on the integrated inclinometer is accurate and reliable for measuring cervical sagittal parameters rapidly and conveniently. [ABSTRACT FROM AUTHOR]

Published

2023