Search

Your search keyword '"Manuel A. Andrade"' showing total 184 results
Start Over Author "Manuel A. Andrade"
184 results on '"Manuel A. Andrade"'

1. Leaf Area Index Estimation of Fully and Deficit Irrigated Alfalfa through Canopy Cover and Canopy Height

Author

Uriel Cholula, Manuel A. Andrade, and Juan K. Q. Solomon

Subjects
alfalfa, leaf area index, canopy cover, canopy height, yield, Agriculture (General), S1-972, Engineering (General). Civil engineering (General), TA1-2040
Abstract

In arid and semiarid regions, crop production has high irrigation water demands due to low precipitation. Efficient irrigation water management strategies can be developed using crop growth models to assess the effect of different irrigation management practices on crop productivity. The leaf area index (LAI) is an important growth parameter used in crop modeling. Measuring LAI requires specialized and expensive equipment not readily available for producers. Canopy cover (CC) and canopy height (CH) measurements, on the other hand, can be obtained with little effort using mobile devices and a ruler, respectively. The objective of this study was to determine the relationships between LAI, CC, and CH for fully and deficit-irrigated alfalfa (Medicago sativa L.). The LAI, CC, and CH measurements were obtained from an experiment conducted at the Valley Road Field Lab in Reno, Nevada, starting in the Fall of 2020. Three irrigation treatments were applied to two alfalfa varieties (Ladak II and Stratica): 100%, 80%, and 60% of full irrigation demands. Biweekly measurements of CC, CH, and LAI were collected during the growing seasons of 2021 and 2022. The dataset was randomly split into training and testing subsets. For the training subset, an exponential model and a simple linear regression (SLR) model were used to determine the individual relationship of CC and CH with LAI, respectively. Also, a multiple linear regression (MLR) model was implemented for the estimation of LAI with CC and CH as its predictors. The exponential model was fitted with a residual standard error (RSE) and coefficient of determination (R2) of 0.97 and 0.86, respectively. A lower performance was obtained for the SLR model (RSE = 1.03, R2 = 0.81). The MLR model (RSE = 0.82, R2 = 0.88) improved the performance achieved by the exponential and SLR models. The results of the testing indicated that the MLR performed better (RSE = 0.82, R2 = 0.88) than the exponential model (RSE = 0.97, R2 = 0.86) and the SLR model (RSE = 1.03, R2 = 0.82) in the estimation of LAI. The relationships obtained can be useful to estimate LAI when CC, CH, or both predictors are available and assist with the validation of data generated by crop growth models.

Published
2024
Full Text
View/download PDF

2. The Essential Role of Local Context in Shaping Risk and Risk Reduction Strategies for Snowmelt‐Dependent Irrigated Agriculture

Author

Beatrice L. Gordon, Gabrielle F. S. Boisrame, Rosemary W. H. Carroll, Newsha K. Ajami, Bryan Leonard, Christine Albano, Naoki Mizukami, Manuel A. Andrade, Elizabeth Koebele, Michael H. Taylor, and Adrian A. Harpold

Subjects
risk, adaptation, agriculture, climate change, hydrology, snow, Environmental sciences, GE1-350, Ecology, QH540-549.5
Abstract

Abstract Climate change‐induced shifts in snow storage and snowmelt patterns pose risks for adverse impacts to people, the environment, and irrigated agriculture. Existing research primarily focuses on evaluating these risks to irrigated agriculture at large scales, overlooking the role of local context in shaping risk dynamics. Consequently, many “at‐risk” areas lack insight into how adaptation strategies for managing risk through water supply augmentation or water conservation vary across contexts and over time. To address this gap, we develop a comprehensive index for evaluating irrigated agriculture's risk and adaptation potential to changes in snow at local scales and apply it throughout the western US. Results confirm trends toward escalating risk for changes in snow storage and snowmelt patterns over the century. However, substantial heterogeneity in the extent and drivers of risk exists due to variability in localized interactions between declines in water supply (approximately −9% ± 13% by 2100) and increased agricultural demand (approximately 7% ± 5% by 2100). Despite an existing focus on supply augmentation as a critical adaptation strategy to reduce risk, we show its effectiveness diminishes for many areas over time, declining to an average of −54% of historical augmentation potential by 2100. Conserving water through historical changes in crop acreage and type emerges as a more stable adaptation measure, reducing demand by 7%–8% regardless of time. While particularly relevant for higher elevation, less intensive agricultural settings in snowmelt‐dependent regions, findings underscore the need for strategies that support local‐scale, context‐appropriate adaptation to effectively manage escalating risk as snow changes.

Published
2024
Full Text
View/download PDF

3. A Machine Learning Approach for the Estimation of Alfalfa Hay Crop Yield in Northern Nevada

Author

Diego Quintero, Manuel A. Andrade, Uriel Cholula, and Juan K. Q. Solomon

Subjects
alfalfa, linear regression, machine learning, Medicago sativa L., random forest, Agriculture (General), S1-972, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Increasing pressure over water resources in the western U.S. is currently forcing alfalfa (Medicago sativa L.) producers to adopt water-saving irrigation techniques. Crop yield forecasting tools can be used to develop smart irrigation scheduling methods that can be used to estimate the future effects of a given irrigation amount applied during a current irrigation event on yield. In this work, a linear model and a random forest model were used to estimate the yield of irrigated alfalfa crops in northern Nevada. It was found that water (rain + irrigation), the occurrence of extreme temperatures, and wind have a greater effect on crop yield. Other variables that accounted for the photoperiod and the dormant period were also included in the model and are also important. The linear model had the best performance with an R2 of 0.854. On the other hand, the R2 value for the random forest was 0.793. The linear model showed a good response to water variability; therefore, it is a good model to consider for use as an irrigation decision support system. However, unlike the linear model, the random forest model can capture non-linear relationships occurring between the crop, water, and the atmosphere, and its results may be enhanced by including more data for its training.

Published
2023
Full Text
View/download PDF

4. Power system coherency recognition and islanding: Practical limits and future perspectives

Author

Harold R. Chamorro, Edgar O. Gomez‐Diaz, Mario R. A. Paternina, Manuel A. Andrade, Emilio Barocio, Jose L. Rueda, Francisco Gonzalez‐Longatt, and Vijay K. Sood

Subjects
damping, data analysis, distributed power generation, power distribution control, power distribution faults, power engineering computing, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

Abstract Electrical power systems are continuously upgrading into networks with a higher degree of automation capable of identifying and reacting to different events that may trigger undesirable situations. In power systems with decreasing inertia and damping levels, poorly damped oscillations with sustained or growing amplitudes following a disturbance may eventually lead to instability and provoke a major event such as a blackout. Additionally, with the increasing and considerable share of renewable power generation, unprecedented operational challenges shall be considered when proposing protection schemes against unstable electro‐mechanical (e.g. ringdown) oscillations. In an emergency situation, islanding operations enable splitting a power network into separate smaller networks to prevent a total blackout. Due to such changes, identifying the underlying types of oscillatory coherency and the islanding protocols are necessary for a continuously updating process to be incorporated into the existing power system monitoring and control tasks. This paper examines the existing evaluation methods and the islanding protocols as well as proposes an updated operational guideline based on the latest data‐analytic technologies.

Published
2023
Full Text
View/download PDF

5. Single Value Decomposition to Estimate Critical Clearing Time of a Power System Using Measurements

Author

Martha N. Acosta, Edgar Gomez, Francisco Gonzalez-Longatt, Manuel A. Andrade, Ernesto Vazquez, and Emilio Barocio

Subjects
Critical clearing time, eigenvalues, energy function, lyapunov function, power system stability, single value decomposition, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The transient stability analysis of large-interconnected power systems using time-domain simulations (TDS) is a significant challenge since it represents a huge computational cost. Besides, for dynamic security assessment is required have a quick response. Consequently, recent approaches are relying on using the wide-area measurement system combined with other techniques to perform transient stability assessment and counteract the drawbacks of the TDS method. However, these approaches still requiring to perform TDS to set initial parameters. This paper proposes a new algorithm to estimate the critical clearing time (CCT) based on the eigenvalue calculation and the singular value decomposition using data from wide-area measurement systems. The proposed algorithm uses the phase angles of the voltage phasors measurements at the generation buses to represent the dynamics of the internal angles of the generators. First, from a set of signals, a measurement matrix is formed using a sliding window. Then, a threshold based on the maximum singular value and the dominant eigenvalue of the measurement matrix are computed. Finally, the CCT is estimated using the dominant eigenvalue (the most energetic eigenvalue) and the threshold. The proposed algorithm is evaluated using the Kundur four-machine system and New England 39-Bus system. Its performance contrasts to the CCT calculated using the classical TDS. The simulation results demonstrated acceptable precision of the CCT against TDS. Also, it presents robustness against the effect of the noise in the measurements. Therefore, it is suitable for online applications.

Published
2021
Full Text
View/download PDF

6. Improved Harmony Search Algorithm to Compute the Underfrequency Load Shedding Parameters

Author

Jose Miguel Riquelme-Dominguez, Martha N. Acosta, Francisco Gonzalez-Longatt, Manuel A. Andrade, Ernesto Vazquez, and José Luis Rueda

Subjects
Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The power system continuously deals with frequency fluctuations. When a power disturbance occurs, the transmission system operators rely on the underfrequency load shedding (UFLS) scheme to address severe underfrequency (UF) events to maintain the frequency at the permissible level and prevent blackouts. Defining settings of a conventional UFLS scheme is a very complex problem due to the nonlinear nature of the frequency response, and the size of the problem is vast because of the number of UF-relays spread on the power system. The under or over total load disconnection produced by the wrong setting of the UF-relays can create secondary frequency events or even a total blackout. This paper introduces a novel method to compute an optimally parametrized conventional UFLS scheme in specific given operating conditions by formulating it as a constrained problem and using the Improved Harmony Search (IHS) algorithm to solve it. Since there is no previous knowledge of using IHS to solve the UFLS scheme, a numerical parameter sensitivity analysis (PSA) is developed to tune the parameter of the IHS algorithm. The IEEE 39-bus system was modelled in DIgSILENT® PowerFactory™ and used as a test system. The optimally parametrized conventional UFLS methodology presented in this paper reveals superior results against the conventional UFLS scheme, and the suitability of using the IHS algorithm is confirmed.

Published
2022
Full Text
View/download PDF

7. Solar node and gateway wireless system functions in record breaking polar vortex outbreak of February 2021

Author

Steven R. Evett, Alondra I. Thompson, Harry H. Schomberg, Manuel A. Andrade, and John Anderson

Subjects
Agriculture, Environmental sciences, GE1-350
Abstract

Abstract Advances in environmental and agricultural management are increasingly enabled by unattended data acquisition using internet‐of‐things (IOT) approaches. These approaches combine advanced sensors and wireless data transmission to automatically convey field data to the internet. Users, either human or machine, then can access and act upon the data from nearly anywhere in the world. Particularly in the case of machines automatically acting on the data, robustness, reliability and accuracy of data are crucial to preventing unintended outcomes of machine operations and continued supply of key services. Low‐cost, low‐power, and solar‐powered systems are important to enable market entry of advanced decision support systems based on IOT data acquisition approaches. The polar vortex outbreak of February 2021 in the central United States provided an extreme test of such a node and gateway system for automatic data acquisition and telemetry to the internet over the cellular telephone network. The system, codesigned by USDA‐ARS and Acclima, performed admirably despite air temperatures reaching a minimum of −24 °C, temperatures < 0 °C for 8 d and < −7 °C for 6 d, two snowstorms, and overcast conditions. The six nodes, gateway, and 36 sensors continued to function reliably with a data transmission failure rate of

Published
2021
Full Text
View/download PDF

8. Assessment of Daily Cost of Reactive Power Procurement by Smart Inverters

Author

Martha N. Acosta, Francisco Gonzalez-Longatt, Manuel A. Andrade, José Luis Rueda Torres, and Harold R. Chamorro

Subjects
distributed energy resources, optimisation, reactive power cost, reactive power control, smart inverter, Technology
Abstract

The reactive power control mechanisms at the smart inverters will affect the voltage profile, active power losses and the cost of reactive power procurement in a different way. Therefore, this paper presents an assessment of the cost–benefit relationship obtained by enabling nine different reactive power control mechanisms at the smart inverters. The first eight reactive power control mechanisms are available in the literature and include the IEEE 1547−2018 standard requirements. The ninth control mechanism is an optimum reactive power control proposed in this paper. It is formulated to minimise the active power losses of the network and ensure the bus voltages and the reactive power of the smart inverter are within their allowable limits. The Vestfold and Telemark distribution network was implemented in DIgSILENT PowerFactory and used to evaluate the reactive power control mechanisms. The reactive power prices were taken from the default payment rate document of the National Grid. Simulation results demonstrate that the optimal reactive power control mechanism provides the best cost–benefit for the daily steady-state operation of the network.

Published
2021
Full Text
View/download PDF

9. Optimal Microgrid–Interactive Reactive Power Management for Day–Ahead Operation

Author

Martha N. Acosta, Francisco Gonzalez-Longatt, Danijel Topić, and Manuel A. Andrade

Subjects
day-ahead reactive power costs, microgrid, optimal-centralised reactive power management, reactive power pricing, smart converters, Technology
Abstract

The replacement of conventional generation sources by DER creates the need to carefully manage the reactive power maintaining the power system safe operation. The principal trend is to increase the DER volume connected to the distribution network in the coming years. Therefore, the microgrid represents an alternative to offer reactive power management due to excellent controllability features embedded in the DER, which enable effective interaction between the microgrid and the distribution network. This paper proposes a microgrid–iterative reactive power management approach of power-electronic converter based renewable technologies for day-ahead operation. It is designed to be a centralised control based on local measurements, which provides the optimal reactive power dispatch and minimise the total energy losses inside the microgrid and maintain the voltage profile within operational limits. The proposed optimal-centralised control is contrasted against seven local reactive power controls using a techno-economic approach considering the steady–state voltage profile, the energy losses, and the reactive power costs as performance metrics. Three different reactive power pricing are proposed. The numerical results demonstrate the optimal microgrid–interactive reactive power management is the most suitable techno-economic reactive power control for the day–ahead operation.

Published
2021
Full Text
View/download PDF

10. Optimal Under-Frequency Load Shedding Setting at Altai-Uliastai Regional Power System, Mongolia

Author

Martha N. Acosta, Choidorj Adiyabazar, Francisco Gonzalez-Longatt, Manuel A. Andrade, José Rueda Torres, Ernesto Vazquez, and Jesús Manuel Riquelme Santos

Subjects
frequency control, improved harmony search, metaheuristic algorithm, Mongolian power system, optimisation, under-frequency load shedding, Technology
Abstract

The Altai-Uliastai regional power system (AURPS) is a regional power system radially interconnected to the power system of Mongolia. The 110 kV interconnection is exceptionally long and susceptible to frequent trips because of weather conditions. The load-rich and low-inertia AURPS must be islanded during interconnection outages, and the under-frequency load shedding (UFLS) scheme must act to ensure secure operation. Traditional UFLS over-sheds local demand, negatively affecting the local population, especially during the cold Mongolian winter season. This research paper proposes a novel methodology to optimally calculate the settings of the UFLS scheme, where each parameter of the scheme is individually adjusted to minimise the total amount of disconnected load. This paper presents a computationally efficient methodology that is illustrated in a specially created co-simulation environment (DIgSILENT® PowerFactoryTM + Python). The results demonstrate an outstanding performance of the proposed approach when compared with the traditional one.

Published
2020
Full Text
View/download PDF

11. Optimal Frequency Support of Variable-Speed Hydropower Plants at Telemark and Vestfold, Norway: Future Scenarios of Nordic Power System

Author

Martha N. Acosta, Daniel Pettersen, Francisco Gonzalez-Longatt, Jaime Peredo Argos, and Manuel A. Andrade

Subjects
battery energy store system, converter-fed synchronous machine, doubly fed induction machine, fast active power injection controller, frequency control, frequency support, Technology
Abstract

The integration of renewable resources is quickly growing in the Nordic power system (NPS), and it has led to increasing challenges for the operation and control of the NPS. Nordic countries require that the first-generation power plants have a more flexible operation regime to overcomes power imbalances coming from fluctuations of the demand and supply. This paper assesses optimal frequency support of variable-speed hydropower plants installed in Telemark and Vestfold, Norway, considering future scenarios of NPS. The total kinetic energy of the NPS is expected to be significantly reduced in the future. This paper looks into the implementation of hydropower units with a variable-speed operation regime and battery energy storage systems (BESS), equipped with fast-active power controller (FAPC) technology, to provide fast frequency response after a system frequency disturbance. The frequency support was formulated as an optimization process; therefore, the parameter of the FAPC was optimally calculated for future scenarios of low inertia in NPS. Three main futures scenarios were developed for technology penetration in the Vestfold and Telemark area in Norway. The simulation results showed that the integration variable-speed hydropower units and BESS technologies improved the frequency response even in low-kinetic energy scenarios.

Published
2020
Full Text
View/download PDF

12. Entre as Humanidades Digitais e a Nova Filologia: as epistolae medicinales e os consilia do humanista Jorge Godines

Author

Emília M. Rocha de Oliveira and António Manuel Lopes Andrade

Subjects
Humanidades Digitais, Nova Filologia, Jorge Godines, Epistolae medicinales, Consilia, Humanismo Renascentista Português, History of the Greco-Roman World, DE1-100, Greek language and literature. Latin language and literature, PA
Abstract

As Humanidades Digitais, assim como a abordagem textual proposta pela Nova Filologia, trouxeram consigo mudanças profundas no modo como hoje se faz investigação em Humanidades e vieram permitir a conceção de projetos ambiciosos, que requerem equipas pluridisciplinares e internacionais. Assim, após uma reflexão sobre a génese e o âmbito das Humanidades Digitais e da Nova Filologia, apresentaremos uma seleção de projetos de investigação, nacionais e internacionais, exemplificativos da aplicação prática destes campos aos Estudos Linguísticos e Literários e à História, evidenciando o seu contributo para a preservação, análise e compreensão mais profunda de corpora vários. Dar-se-á particular ênfase a projetos que demonstram a aplicabilidade inovadora e profícua das Humanidades Digitais e da Nova Filologia ao estudo de corpora epistolares (com especial incidência em cartas médicas e consilia), ao proporcionarem um conhecimento circunstanciado e abrangente do conteúdo dos textos que os integram, elucidando aspetos cruciais como a identidade dos correspondentes, a natureza dos laços que os uniam, ou o contexto sociopolítico e cultural em que se moviam. Por último, à luz dos avanços realizados neste campo de estudo, apresentar-se-á a conceção de um novo projeto de investigação, centrado num conjunto inédito de epistolae medicinales e de consilia de Jorge Godines, um médico português do século XVI.

Published
2024
Full Text
View/download PDF

13. 'I Don't Really Know Where I Stand Because I Don't Know if I Took Something Away from Her': Moral Injury in South African Speech-Language Therapists and Audiologists Due to Patient Death and Dying

Author

Nagdee, Nabeelah and Manuel de Andrade, Victor

Abstract

Background: Speech-language therapists and audiologists (SLT&As) may encounter difficulties when confronted with patient death and dying, which may conflict with their moral beliefs and result in moral injury. Furthermore, South African SLT&As practice in a country with a high mortality rate, which may add to the complexity of their experience. Moreover, they may be influenced by African philosophies promoting care, which might conflict with their experiences of patient death and dying. Aims: To explore the moral injury experienced by South African SLT&As in patient death and dying, and how they overcame the injury. Methods & Procedures: This article forms part of a larger qualitative study that explored SLT&As' experiences of patient death and dying in South Africa. Thematic analysis was conducted on the transcripts of 25 episodic narrative interviews conducted with South African SLT&As on their experiences of patient death and dying. Outcomes & Results: Findings suggest that South African SLT&As experienced helplessness, guilt and anger in patient death and dying. However, with support from the allied team, engaging in self-reflection and religious practices, they reported alleviation of moral injury. Conclusions & Implications: In order to mitigate moral injury in South African SLT&As, they require professional education, self-care strategies, guidelines and support from the teams in which they work and their supervisors. Research is needed that explores how SLT&As' biographical characteristics and interactions with significant others of dying and deceased patients, may result in moral injury.

Published
2023
Full Text
View/download PDF

19. Forecasting of Canopy Temperatures Using Machine Learning Algorithms

Author

Manuel A Andrade, Susan A. O’Shaughnessy, and Steven R. Evett

Subjects
Biomedical Engineering, Soil Science, Forestry, Agronomy and Crop Science, Food Science
Abstract

Highlights This study analyzes the feasibility of using Artificial Neural Networks (ANNs) to estimate canopy temperatures. A methodology is introduced to forecast canopy temperatures using historical canopy temperatures. ANNs can predict canopy temperatures with satisfactory accuracy for plant stress-based irrigation scheduling. The methodology can be useful to add redundancy to plant stress-based irrigation scheduling methods. Abstract. Recent advances can provide farmers with irrigation scheduling tools based on crop stress indicators to assist in the management of Variable Rate Irrigation (VRI) center pivot systems. These tools were integrated into an Irrigation Scheduling Supervisory Control and Data Acquisition System (ISSCADAS) developed by scientists with the USDA-Agricultural Research Service (ARS). The ISSCADAS automates the collection of data from a network of wireless infrared thermometers (IRTs) distributed on a center pivot’s lateral and in the field irrigated by the center pivot, as well as data from a wireless soil water sensor network and a microclimate weather station. This study analyzes the use of Artificial Neural Networks (ANNs), a type of machine learning algorithm, for the forecasting of canopy temperatures obtained by a wireless network of IRTs mounted on a three-span VRI center pivot irrigating corn near Bushland, TX, during the summer of 2017. Among the predictors used by the ANNs were weather variables relevant to the estimation of evapotranspiration (i.e., air temperature, relative humidity, solar irradiance, and wind speed), irrigation management variables (irrigation treatment, irrigation scheduling method, and the amount of water received during the last 5 days as irrigation or rainfall), and days after planting. Two case studies were conducted using data collected from periodic scans of the field performed during the growing season by running the pivot dry. In the first case, data from the first three scans were used to train an ANN, and canopy temperatures estimated using the ANN were then compared against canopy temperatures measured by the network of IRTs during the fourth scan. In the second case, data from the first six scans were used to train ANNs, and canopy temperatures estimated using the ANN were then compared against canopy temperatures measured by the network of IRTs during the seventh scan. The Root of the Mean Squared Error (RMSE) of ANN predictions in the first case ranged from 1.04°C to 2.49°C, whereas the RMSE of ANN predictions in the second case ranged from 2.14°C to 2.77°C. To assess the impact of ANN accuracy on irrigation management, estimated canopy temperatures were fed to a plant-stress-based irrigation scheduling method, and the resulting prescription maps were compared against prescription maps obtained by the same method using the canopy temperatures measured by the network of IRTs. In the first case, no difference was found between both prescription maps. In the second case, only one plot (out of 26) was assigned a different prescription. Results of this study suggest that machine learning techniques can be used to assist the ISSCADAS in situations where canopy temperatures cannot be measured by the network of IRTs due to poor visibility conditions, or because the center pivot cannot traverse the field within a reasonable amount of time. Keywords: Artificial Neural Network, Canopy temperature sensing, Center pivot irrigation, Irrigation scheduling, Machine learning, Metamodeling, Variable rate irrigation.

Published
2023
Full Text
View/download PDF

22. ‘I don't really know where I stand because I don't know if I took something away from her’: Moral injury in South African speech–language therapists and audiologists due to patient death and dying

Author

Nabeelah Nagdee and Victor Manuel de Andrade

Subjects
Speech and Hearing, Linguistics and Language, Language and Linguistics
Abstract

Speech-language therapists and audiologists (SLTAs) may encounter difficulties when confronted with patient death and dying, which may conflict with their moral beliefs and result in moral injury. Furthermore, South African SLTAs practice in a country with a high mortality rate, which may add to the complexity of their experience. Moreover, they may be influenced by African philosophies promoting care, which might conflict with their experiences of patient death and dying.To explore the moral injury experienced by South African SLTAs in patient death and dying, and how they overcame the injury.This article forms part of a larger qualitative study that explored SLTAs' experiences of patient death and dying in South Africa. Thematic analysis was conducted on the transcripts of 25 episodic narrative interviews conducted with South African SLTAs on their experiences of patient death and dying.Findings suggest that South African SLTAs experienced helplessness, guilt and anger in patient death and dying. However, with support from the allied team, engaging in self-reflection and religious practices, they reported alleviation of moral injury.In order to mitigate moral injury in South African SLTAs, they require professional education, self-care strategies, guidelines and support from the teams in which they work and their supervisors. Research is needed that explores how SLTAs' biographical characteristics and interactions with significant others of dying and deceased patients, may result in moral injury. WHAT THIS PAPER ADDS?: What is already known on this subject? Moral injury and measures used to overcome the injury have been explored in military personnel, doctors and nurses, but not in SLTAs. However, studies that explored the perceptions of SLTs and/or audiologists regarding providing palliative care and of death and dying, particularly that by Rivers et al. in 2009, suggested that these professionals may be at risk of experiencing emotional trauma due to patient death, particularly when not receiving undergraduate education on this subject. However, the extent of this trauma and the support needed to overcome it is unknown because the participants in these studies may have not experienced patient death, and were only students or just SLTs. What this article adds? This article highlights the complexity of speech-language therapy and audiology practice when confronted with patient death and dying. South African SLTAs may have to make decisions that conflict with their morals and professional practice standards, especially as the helping nature of their profession is characterized by African philosophies that promote care, which may result in moral injury. Clinical implications of this article This article indicates that in addition to undergraduate education on patient death and dying, SLTs and audiologists require continuous professional education on this topic, self-care strategies, support from the teams in which they work, and their supervisors and guidelines for when they encounter patient death and dying.

Published
2022
Full Text
View/download PDF

23. Bio-Fuel Market: Hypothetical Scenarios

Author

Juan Manuel Dominguez Andrade and Escuela Superior Politécnica del Litoral (ESPOL)

Subjects
General Medicine
Abstract

This paper employs the Ivaldi-Vibes algorithm to model the U.S. gasoline market under the hypothetical scenario in which the ethanol production subsidies were phased out from 1995- 2005. Under this hypothetical situation, the individuals were not only willing to switch their consumption decision, but they were also willing to consider alternative modes of transportation including public transportation, biking or walking. As a result, the outside alternative market share increased about 4% and 6% and the conventional gasoline market shares increased while the ethanol blends experienced decreases across all petroleum districts. This methodology also permitted simulating the impact of this elimination on the gasoline prices. The conventional gasoline prices increased in a range between 0.12 and 1.34 percent. Finally, since different types of oxygenates are blended with the regular gasoline to compliance the EPA regulations, the reduction in the reformulated gasoline market shares implied a trade off in the demand for these oxygenates whose variation rates averaged 55.14% for the ethanol-MTBE ratio. En este trabajo se emplea el algoritmo de Ivaldi-Vibes para modelar el mercado de combustibles de EE.UU. bajo el escenario hipotético en el que los subsidios a la producción de etanol fueron eliminados desde 1995 hasta 2005. En esta situación hipotética, los individuos no sólo estaban dispuestos a cambiar su decisión de consumo, sino también a considerar modos alternativos de transporte, incluyendo el transporte público, en bicicleta o caminar. Como resultado, la cuota de mercado exterior alternativa aumentó un 4% y 6% y las cuotas del mercado de combustibles convencionales aumentó, mientras que el etanol combinado experimentó disminuciones en todos los distritos petroleros. Esta metodología también permite simular el impacto de esta eliminación en los precios de los combustibles. Los precios de los combustibles convencionales aumentaron en un rango entre 0,12 y 1,34 por ciento. Por último, ya que los diferentes tipos de compuestos oxigenados son combinados con la gasolina regular para el cumplimiento de las regulaciones de la EPA, la reducción de las cuotas de mercado de combustibles reformulados implica un trade-off de la demanda de estos productos oxigenados, cuya tasa de variación promedio es de 55,14% para la razón etanol- MTBE.

Published
2022
Full Text
View/download PDF

26. The dizzying cycle: a qualitative study showing the effects of vestibular disorders and stress on work experience

Author

Nabeelah Nagdee, Victor Manuel de Andrade, and Mahdiyyah Banoo

Subjects
Speech and Hearing, Linguistics and Language, Language and Linguistics
Abstract

Quantitative studies have explored the work abilities of persons with specific vestibular-related symptoms, but there seems to be a dearth of research that has explored the work experience of persons-with- vestibular- disorders, so this qualitative study explored this phenomenon. Audio-recorded semi-structured interviews were conducted online. Thematic analysis was used to analyse the transcripts. Together, two researchers coded the transcripts and deductively identified the main themes on the main components of the expanded International Classification of Functioning, Disability, and Health scheme, and thereafter generated the sub-themes inductively. Fourteen people with various vestibular disorders and occupations in South Africa participated in the study. Participants reported having difficulty performing work-related tasks requiring attention to detail and ambulation, and work environmental conditions triggered their vestibular-related symptoms. Some participants received time off from work and support from their supervisors and colleagues, while others did not. Seeking mental services allowed them to overcome their negative feelings, medication suppressed their vestibular-related symptoms, and vestibular rehabilitation allowed them to focus on their work. Vestibular-related symptoms may hinder persons- with- vestibular- disorders from completing and participating in work-related activities, which may result in them experiencing negative feelings. The nature of some of the work-related tasks that they need to complete and experiencing negative feelings may trigger their vestibular-related symptoms. Together, the work-related activity limitations, participation restrictions, and environmental and personal factors may cause persons- with- vestibular- disorders to experience disability in their workplaces. To prevent this potential disability, persons with vestibular disorders should be supported by and receive workplace accommodations. Furthermore, they should be enrolled into work rehabilitation programmes that include, vestibular rehabilitation, medication regimens, and mental health services.

Published
2023
Full Text
View/download PDF

27. Nanosized extracellular vesicles released byNeurospora crassahyphae

Author

Elizabeth Medina-Castellanos, Daniel A. Salgado-Bautista, Juan Manuel Martínez-Andrade, Ruben Dario Cadena-Nava, and Meritxell Riquelme

Abstract

Extracellular vesicles (EVs) are nanosized structures containing proteins, lipids, and nucleic acids, released by living cells to the surrounding medium. EVs participate in diverse processes, such as intercellular communication, virulence, and disease. In pathogenic fungi, EVs carry enzymes that allow them to invade the host or undergo environmental adaptation successfully. InNeurospora crassa, a non-pathogenic filamentous fungus widely used as a model organism, the vesicle-dependent secretory mechanisms that lead to polarized growth are well studied. In contrast, biosynthesis of EVs in this fungus has been practically unexplored. In the present work, we analyzedN. crassaculture’s supernatant for the presence of EVs by dynamic light scattering (DLS), transmission electron microscopy (TEM) and proteomic analysis. We identified spherical membranous structures, with a predominant subpopulation averaging a hydrodynamic diameter (dh) of 68 nm and a particle diameter (dp) of 38 nm. EV samples stained with osmium tetroxide vapors were better resolved than those stained with uranyl acetate. Mass spectrometry analysis identified 252 proteins, including enzymes involved in carbohydrate metabolic processes, oxidative stress response, cell wall organization/remodeling, and circadian clock-regulated proteins. Some of these proteins have been previously reported in exosomes from human cells or in EVs of other fungi. In view of the results, it is suggested a putative role for EVs in cell wall biosynthesis and vegetative development inN. crassa.

Published
2022
Full Text
View/download PDF

29. 'Se instaló el diablo en el Salar'. Organizaciones atacameñas, agua y minería del litio en el Salar de Atacama

Author

Mauricio Lorca, Manuel Olivera Andrade, and Ingrid Garcés

Subjects
Cultural Studies, Archeology, History, Anthropology
Abstract

La acción del capital y la minería en la región de Antofagasta desde fines del siglo XIX ha significado profundas transformaciones sociales y ambientales. Ese proceso de larga duración hoy encuentra continuidad y amplificación en la minería del litio en el Salar de Atacama. Desde la década de 1990, la dimensión étnica de la acción colectiva en ese territorio ha redefinido las relaciones interculturales posibilitando, en la segunda década de este siglo, la firma de convenios entre mineras y organizaciones atacameñas que involucran la transferencia directa de dinero como compensación a los impactos negativos que suponen sus operaciones, especialmente, en el balance hídrico del lugar. Este artículo caracteriza esta nueva etapa de la organización y movilización atacameña, a partir de las estrategias de negociación y gestión del territorio que están implementando las comunidades y que han hecho emerger fuertes cuestionamientos al interior y entre las organizaciones atacameñas trasladando el acostumbrado enfrentamiento entre empresas y comunidades al interior de las organizaciones indígenas.

Published
2023
Full Text
View/download PDF

30. Single Value Decomposition to Estimate Critical Clearing Time of a Power System Using Measurements

Author

Emilio Barocio, Manuel A. Andrade, E. Vazquez, Edgar Gomez, Francisco Gonzalez-Longatt, and Martha N. Acosta

Subjects
General Computer Science, Computer science, Noise (signal processing), System of measurement, General Engineering, eigenvalues, Critical clearing time, single value decomposition, TK1-9971, Singular value, Electric power system, Control theory, Robustness (computer science), power system stability, Sliding window protocol, energy function, Singular value decomposition, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, lyapunov function, Eigenvalues and eigenvectors
Abstract

The transient stability analysis of large-interconnected power systems using time-domain simulations (TDS) is a significant challenge since it represents a huge computational cost. Besides, for dynamic security assessment is required have a quick response. Consequently, recent approaches are relying on using the wide-area measurement system combined with other techniques to perform transient stability assessment and counteract the drawbacks of the TDS method. However, these approaches still requiring to perform TDS to set initial parameters. This paper proposes a new algorithm to estimate the critical clearing time (CCT) based on the eigenvalue calculation and the singular value decomposition using data from wide-area measurement systems. The proposed algorithm uses the phase angles of the voltage phasors measurements at the generation buses to represent the dynamics of the internal angles of the generators. First, from a set of signals, a measurement matrix is formed using a sliding window. Then, a threshold based on the maximum singular value and the dominant eigenvalue of the measurement matrix are computed. Finally, the CCT is estimated using the dominant eigenvalue (the most energetic eigenvalue) and the threshold. The proposed algorithm is evaluated using the Kundur four-machine system and New England 39-Bus system. Its performance contrasts to the CCT calculated using the classical TDS. The simulation results demonstrated acceptable precision of the CCT against TDS. Also, it presents robustness against the effect of the noise in the measurements. Therefore, it is suitable for online applications.

Published
2021

31. The system robustness SOLL in student learning process

Author

Andreia Maria Magalhães, António Manuel Valente Andrade, and José Matias Alves

Subjects
Internet of things, Technology, ComputingMilieux_COMPUTERSANDEDUCATION, Learning, Curriculum, Education
Abstract

The Internet of Things (IoT) is a network composed of various objects and devices connected to the Internet, which has great potential for education. In order to verify the potential of IoT in an interdisciplinary approach of the science curriculum in the 3rd Cycle of Basic Education the Smart Objects Linked to Learning (SOLL) project, which is an interactive, dynamic and interdisciplinary learning platform, supported by a set of technologies that collect and store data from a greenhouse for later interdisciplinary analysis has thus developed. The aim of this article is to show, from a mixed methodology approach, the robustness of the SOLL educational platform in an interdisciplinary learning process. Through student surveys and questionnaires and focus group interviews with teachers, the obtained data show, in general, that this platform responds to the new learning community structure, by adopting a different learning model, based on the exploration of interests and the enrichment of educational experiences.

Published
2022
Full Text
View/download PDF

33. Comparison of precision and conventional irrigation management of cotton and impact of soil texture

Author

Manuel A. Andrade, Steven R. Evett, Scott T. Drummond, Earl D. Vories, Susan A. O’Shaughnessy, and Kenneth A. Sudduth

Subjects
Irrigation, Soil texture, business.industry, Yield (finance), 0208 environmental biotechnology, Irrigation scheduling, 04 agricultural and veterinary sciences, 02 engineering and technology, Irrigation water, 020801 environmental engineering, Water balance, Agronomy, Agriculture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, General Agricultural and Biological Sciences, Irrigation management, business
Abstract

Soil textural variability diminishes the effectiveness of conventional irrigation management. Variable rate irrigation (VRI) can address soil variability; however, users need guidance to prepare prescriptions for optimal water application. A study was conducted at Portageville, MO, USA, in 2016 and 2017 with the objective to compare yield and irrigation water use efficiency among three water-management treatments for cotton: rainfed, irrigated based on the USDA-ARS Irrigation Scheduling Supervisory Control And Data Acquisition (ISSCADA) system, and irrigated based on a water balance method. Sand content in the top 533 mm soil layer was estimated from apparent electrical conductivity (ECa). Yield values measured near an ECaobservation were averaged to create a data set containing sand content and associated yield. Although the trend was for the rainfed treatment to have the lowest yield in both years, the yield differences among all treatments were not significant when sand content was not considered. A strong effect of sand content on cotton yield was observed in both seasons, although the slopes differed among the water management treatments in 2016. The ISSCADA system tended to have a higher irrigation water use efficiency in both seasons, but the difference was not significant in 2016 when total irrigation applications were low. The study is continuing at Portageville and other locations and the ISSCADA system is constantly being improved to better meet the needs of agricultural producers.

Published
2020
Full Text
View/download PDF

34. Inserción y adaptación laboral del profesor novel de educación diferencial. Estudio de caso en tres escuelas de la Región Metropolitana, Chile

Author

Claudia Toro Zúñiga, José Manuel Medina Andrade, Yalipsi Gaete Vargas, and Sandra Elgueta Ferrada

Subjects
media_common.quotation_subject, Perspective (graphical), Identity (social science), General Medicine, Focus group, Phenomenon, Perception, Pedagogy, ComputingMilieux_COMPUTERSANDEDUCATION, Sociology, Adaptation (computer science), lcsh:L, Inclusion (education), Diversity (politics), media_common, lcsh:Education
Abstract

Teaching in special or differential education currently implies a comprehensive initial teacher training, suitable to deliver to the environment trained new teachers and in correspondence with the local and global demands of society, demands that progressively move towards a transformation for diversity and inclusion. of all and all in the different social settings. The present investigation explored the phenomenon of the new teacher in differential education in different educational contexts from the perspective of their insertion and adaptation to the educational environment. Through a qualitative approach based on the case study and through interviews and focus groups with members of the educational community, he sought to determine and analyze the perception of these key informants about the new teachers of the Pedagogy in Differential Education career in his cohort 2017 and 2018 from the University of the Americas and these first moments of his practical professional teaching practice. The data show a level of preparation according to the needs of educational institutions, as well as a successful adaptation to the reality of the environment that surrounds them, building their professional identity in their first years of work as differential education teachers.

Published
2020

35. ARSPivot, A Sensor-Based Decision Support Software for Variable-Rate Irrigation Center Pivot Systems: Part B. Application

Author

Steven R. Evett, Manuel A. Andrade, and Susan A. O’Shaughnessy

Subjects
0106 biological sciences, Irrigation, Geographic information system, business.industry, Biomedical Engineering, Irrigation scheduling, Soil Science, Forestry, 04 agricultural and veterinary sciences, Agricultural engineering, 01 natural sciences, Field capacity, Center pivot irrigation, Neutron probe, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Precision agriculture, Irrigation management, business, Agronomy and Crop Science, 010606 plant biology & botany, Food Science
Abstract

HighlightsThe ARSPivot software facilitates variable-rate irrigation management of a center pivot irrigation system.The software embodies a system capable of generating site-specific prescription maps based on weather, plant, and soil water information.ARSPivot’s graphical user interface (GUI) incorporates easy-to-use geographic information system (GIS) tools that help its users to make irrigation management decisions.Abstract. The ARSPivot software was developed for the seamless operation of a complex network consisting of a variable-rate irrigation (VRI) center pivot system and an Irrigation Scheduling Supervisory Control and Data Acquisition (ISSCADA) system that interfaces with weather, plant, and soil water sensing systems. ARSPivot’s graphical user interface (GUI) incorporates a built-in geographic information system (GIS) that maps a center pivot system and facilitates the analysis of data relevant to its operation. The GIS was developed following a minimalistic approach with the objective of making its geospatial data analysis tools accessible to a wide range of users (farmers, irrigation consultants, and researchers). The post-harvest analyses of two experiments carried out in the Texas High Plains during the summers of 2016 and 2017 using a three-span VRI center pivot are presented to illustrate the advantages of using ARSPivot as a decision support tool and how its GIS tools help its users make better informed decisions regarding irrigation management. In these experiments, the north-northwest (NNW) portion of a field planted with corn (Zea mays L.) was irrigated using VRI zone control, and the south-southeast (SSE) portion was irrigated using VRI speed control. Experimental plots in the NNW portion were assigned one of three irrigation levels (80%, 50%, or 30% replenishment of soil water depletion to field capacity in the top 1.5 m), and their irrigation was scheduled using either a plant stress-based algorithm implemented in the ARSPivot software or manual weekly neutron probe (NP) readings. Plots in the SSE portion were assigned a single irrigation level of 80%, and their irrigation was scheduled using either the plant stress method or a two-step hybrid approach in which soil water sensing was combined with the plant stress method to determine irrigation depths. Soil water sensing data for the ISSCADA system were provided by NP readings during the 2016 season and by sets of time-domain reflectometers (TDRs) installed at depths of 15, 30, and 45 cm during the 2017 season. No significant differences were found during either season in terms of mean dry grain yield and crop water productivity (CWP) obtained from plots irrigated at the 80% level in both sides of the field, regardless of the irrigation scheduling method or the type of VRI application method used for irrigation. No significant differences were found during either season between mean dry grain yield and CWP of plots in the NNW portion irrigated using the plant stress-based method and NP readings at the 80% irrigation level. The lack of significant differences documented the potential of the ARSPivot system as a plant and soil water sensing-based decision support software for site-specific irrigation management of corn using a VRI center pivot system. Keywords: Center pivot irrigation, Decision support system, Geographic information system, Precision agriculture, Software.

Published
2020
Full Text
View/download PDF

36. Precision Agriculture and Irrigation: Current U.S. Perspectives

Author

Martha C. Anderson, Alondra I. Thompson, Manuel A. Andrade, Harry H. Schomberg, Steven R. Evett, Susan A. O’Shaughnessy, and William P. Kustas

Subjects
Irrigation, Decision support system, 010504 meteorology & atmospheric sciences, Computer science, business.industry, Biomedical Engineering, Soil Science, Forestry, 04 agricultural and veterinary sciences, Agricultural engineering, 01 natural sciences, Unit (housing), SCADA, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Precision agriculture, Internet of Things, business, Agronomy and Crop Science, 0105 earth and related environmental sciences, Food Science
Abstract

Highlights.Precision agriculture (PA) applications in irrigation are stymied by lack of decision support systems.Modern PA relies on sensor systems and near real-time feedback for irrigation decision support and control.Sophisticated understanding of biophysics and biological systems now guides site-specific irrigation.The internet of things (IOT) enables new ways to increase yield per unit of water used and nutrient use efficiency. Keywords: Crop water productivity, Decision support system, Internet of things, Remote sensing, SCADA, Soil water content.

Published
2020
Full Text
View/download PDF

37. Theory and Development of a VRI Decision Support System: The USDA-ARS ISSCADA Approach

Author

Robert Schwartz, Manuel A. Andrade, Susan A. O’Shaughnessy, Steven R. Evett, Harry S. Schomberg, Ruixiu Sui, Paul D. Colaizzi, Kenneth C. Stone, and Earl D. Vories

Subjects
Decision support system, Irrigation, business.industry, Computer science, Node (networking), Biomedical Engineering, Irrigation scheduling, Soil Science, Forestry, Agricultural engineering, Center pivot irrigation, SCADA, New product development, business, Agronomy and Crop Science, Wireless sensor network, Food Science
Abstract

HighlightsMulti-faceted research efforts converged to an automated irrigation decision support system (DSS).Low-cost, solar-powered, wireless plant abiotic and biotic stress sensors were developed to aid the DSS.Low-cost, accurate TDR soil water sensors and a wireless node and gateway system were developed for the DSS.Sensor systems and research-based algorithms were integrated into an automated irrigation DSS and control system.Abstract. Variable-rate irrigation (VRI) is now possible with every new center pivot irrigation system sold, either using sector (speed) control or both sector and zone (radial along the pipeline) control. However, decision support systems able to generate a prescription for spatially varying irrigation based on crop water need have lagged far behind VRI equipment. Irrigation based on crop water need has been shown to increase both crop water productivity and nutrient use efficiency, meaning that an effective VRI decision support system (DSS) could improve profitability while conserving resources. In this article, we report separately on a VRI DSS using sensor-based plant and soil water feedback as implemented in four U.S. states. This article describes the genesis and development of the Irrigation Scheduling Supervisory Control and Data Acquisition (ISSCADA) system, of the integral plant and soil sensors, and of its wireless sensor network subsystems, as well as the role of multi-location research efforts and cooperative research and development agreements in the development of the needed plant and soil sensors and the ISSCADA and wireless sensor network systems. Keywords: Crop water productivity, Decision support system, Product development, Sensors, Variable-rate irrigation, VRI.

Published
2020
Full Text
View/download PDF

38. Análise granulométrica e DRX para caracterização do rejeito de caulim da região do Seridó da Paraíba visando uma nova rota de beneficiamento

Author

Ailma Roberia Souto de Medeiros, Ligia Mara Gonzaga, Defsson Douglas de Araújo Ferreira, Manuel José Andrade Romero, and Severino Rodrigues de Farias Neto

Subjects
Marketing, Pharmacology, Physics, Organizational Behavior and Human Resource Management, Strategy and Management, Drug Discovery, Pharmaceutical Science, Humanities
Abstract

O Caulim e uma argila fundamentalmente composta pelo argilomineral caulinita, um silicato pertencente a familia dos filossilicatos. Esse mineral e uma importante materia-prima usada em grande numero de aplicacoes industriais, a principal delas na industria de papel. O beneficiamento de caulim na regiao do Serido do estado da Paraiba (PB) gera uma quantidade consideravel de rejeitos, cerca de 70% da materia-prima utilizada no processamento e descartada. O principal objetivo deste trabalho foi caracterizar o caulim da regiao do Serido da Paraiba a fim de adequar as etapas de beneficiamento. Quatro amostras de caulim foram caracterizadas pelas tecnicas de difracao de raios X e analise granulometrica a laser, sendo possivel conhecer sua composicao mineralogica, assim como determinar sua distribuicao granulometrica. As quatro amostras estudadas apresentaram a mesma composicao (caulinita, quartzo, feldspato e moscovita). Tendo em vista que a distribuicao granulometrica e homogenea e bastante fina, recomenda-se a substituicao de peneiras por hidrociclones no processo de beneficiamento aumentando assim a recuperacao massica, proporcionando a reducao dos custos de producao, permitindo um melhor aproveitamento do minerio e consequentemente reduzindo seus impactos ambientais. Porem para ter resultados mais representativos e necessaria uma caracterizacao tecnologica completa.

Published
2020
Full Text
View/download PDF

39. Irrigation Management of Potatoes Using Sensor Feedback: Texas High Plains

Author

Paul D. Colaizzi, Min-Young Kim, F. Workneh, Susan A. O’Shaughnessy, Charles M. Rush, Steven R. Evett, and Manuel A. Andrade

Subjects
0106 biological sciences, Irrigation, Biomedical Engineering, Irrigation scheduling, Soil Science, Growing season, Forestry, 04 agricultural and veterinary sciences, 01 natural sciences, Field capacity, Center pivot irrigation, Agronomy, Neutron probe, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Irrigation management, Agronomy and Crop Science, 010606 plant biology & botany, Food Science
Abstract

HighlightsPotatoes irrigated at 80% and 100% replenishment of soil water depletion to field capacity resulted in statistically similar tuber yields and irrigation water productivity.In the drier growing season, irrigation scheduling using sensor feedback resulted in fewer irrigations compared with the manual-control method.In the wetter growing season, irrigation scheduling using sensor feedback resulted in similar or better tuber yields compared with the manual-control method.Abstract. Few studies have investigated yield and crop water productivity of plant and soil water sensing feedback systems for site-specific irrigation management of a potato crop. In this two-year study (2018 and 2019), the irrigation scheduling supervisory control and data acquisition (ISSCADA) system developed by scientists at the USDA-ARS Conservation and Production Research Laboratory in Bushland, Texas, was used to manage a potato crop at three irrigation levels. The ISSCADA system used two different irrigation scheduling methods: (1) plant feedback and (2) a hybrid method that combines plant feedback with soil water sensing with a soil water depletion (SWD) threshold initially set at 50% and reduced to 35% in the second year. Tuber yield, crop water productivity (CWP), and irrigation water productivity (IWP) resulting from the two ISSCADA irrigation scheduling methods were compared with a manual-control method based on weekly neutron probe readings. The irrigation levels were 100%, 80%, and 60% (I100, I80, and I60) of full and were accomplished by either replenishment of SWD to field capacity or by the equivalent plant feedback or SWD thresholds of the ISSCADA system. In the second study year, the SWD threshold was reduced to 35%. Cumulative irrigation amounts for the ISSCADA treatment methods were significantly less compared with the manual-control method in the I100 levels for both years. This resulted in significantly smaller tuber yields and CWP in the first year of the study, a hot dry growing season. In the second year of the study, tuber yields and CWP were similar between irrigation scheduling methods, and IWP was significantly greater for the ISSCADA-plant feedback method. Considering the effect of irrigation treatment, the tuber yields, CWP, and IWP between the I100 and I80 levels were similar in both years, resulting in an average savings of 85 mm at the I80 level. Future studies are needed to investigate if the change in the SWD threshold could enable the ISSCADA-hybrid system to adjust to variable climatic conditions and successfully irrigate potatoes in this region. Keywords: Center pivot, Dynamic prescription maps, Plant feedback, Site-specific variable-rate irrigation, Soil water sensing feedback, Wireless sensor networks

Published
2020
Full Text
View/download PDF

42. Condiciones laborales de profesores egresados del programa de postítulo de mención en matemática para segundo ciclo básico

Author

Christian Miranda Jaña, Claudia García Yáñez, Ricardo Abarca Alarcón, José Manuel Medina Andrade, Sebastián Molina Aguilar, and José Luis Medina Moya

Subjects
Teacher training, Work environment, Xile, Educació permanent, Chile, Continuing education, Formació del professorat, Condicions de treball
Abstract

Las condiciones laborales y la formación permanente son factores relevantes en el desarrollo profesional docente. Este estudio busca describir el cambio en las condiciones laborales de docentes formados en el Programa de postítulo de mención en matemática para segundo ciclo básico luego de tres años de su egreso, desde la perspectiva del desarrollo profesional sistémico. El método utilizado es cuantitativo y considera la aplicación de un cuestionario a una muestra de 189 docentes, utilizado para el análisis de los datos estadística descriptiva. Los resultados muestran que las condiciones laborales cambian de modo positivo, siendo de mayor variación las de tipo pedagógicas y menor las de tipo contractuales e institucionales. Estos hallazgos discuten la pertinencia de considerar las condiciones laborales del profesorado en las políticas sectoriales y en los estudios sobre el desarrollo profesional docente.

Published
2021

43. Development and analysis of an open-source platform to simulate electric vehicle charging needs

Author

Perez, Manuel Joaquim Andrade Sousa and Quintal, Filipe Magno Gouveia

Subjects
Informatics Engineering, Faculdade de Ciências Exatas e da Engenharia, Software engineering, Energy, Microservices, Machine learning, Engenharia e Tecnologia::Engenharia Eletrotécnica, Eletrónica e Informática [Domínio/Área Científica], Smart-charging, Modelling
Abstract

Submitted by António Freitas (amsf@uma.pt) on 2022-01-14T11:23:47Z No. of bitstreams: 1 JPEREZ-TESE-VFINAL.pdf: 9420520 bytes, checksum: 07d1805baa5df1dfa506b638daa7a470 (MD5) Made available in DSpace on 2022-01-14T11:23:47Z (GMT). No. of bitstreams: 1 JPEREZ-TESE-VFINAL.pdf: 9420520 bytes, checksum: 07d1805baa5df1dfa506b638daa7a470 (MD5) Previous issue date: 2021-12-03

Published
2021

44. !PÁRATE COMO HOMBRE! EXPERIENCIAS EN ESFUERZOS DE CAMBIO DE ORIENTACIÓN SEXUAL E IDENTIDAD DE GÉNERO (ECOSIG) EN MÉXICO

Author

Manuel Teofilo Andrade Lobaco and MARTHA PATRICIA PONCE JIMENEZ

Subjects
Terapia de desviaciones sexuales. [DLC], Homosexualidad - Aspectos psicológicos. [DLC], 5 [cti], 630701 [cti], Orientación sexual. [DLC], Tesis - Maestría en Antropología Social, CDMX. [Otro], 6307 [cti], Gays - Conducta de vida. [DLC], Experiencias en Esfuerzos de Cambio de Orientación Sexual e Identidad de Género. [DLC], 63 [cti], Masculinidad (Psicología). [DLC], Homosexuales - Conducta de vida. [DLC]
Abstract

"Los Esfuerzos de Cambio de Orientación Sexual e identidad de Género (ECOSIG) o las mal llamadas “terapias de conversión” son prácticas de las que muchos hemos escuchado hablar. Sobre todo, gracias a las legislaciones del 2020 en las que este tipo de prácticas quedaron prohibidas en la Ciudad de México y en el Estado de México. Desde mi experiencia personal, he notado que, en el imaginario social, por lo menos el que me rodea, este fenómeno se tiende a comprender relacionado a tradiciones religiosas –en especial cristianas– o a técnicas muy “salvajes” y retrogradas. A muchos les viene a la mente películas como Boy Erased o quizá procedimientos con electrochoques o tratamientos hormonales. Inclusive, algunos sabrán que diferentes organizaciones de la salud mental se han posicionado en contra de estos. También, cuando platicaba sobre esta investigación, me di cuenta de que existe una negativa social para aceptar que este tipo de prácticas suceden en el centro de México o en áreas urbanas, inclusive para personas LGBTIQ+ : ¿Terapias de conversión? Pero eso solo sucede en provincia, ¿no? Va a ser difícil que encuentres a gente que haya pasado por eso por aquí. Es decir, este fenómeno es considerado como social y geográficamente ajeno para aquellos que no han pasado por una experiencia de este tipo. Sin embargo, esta investigación nos da un esbozo de que existen diferentes tipos de ECOSIG en distintas zonas del país. Las técnicas empleadas muchas veces van de la mano con terapia psicológica que está teóricamente alimentada por propuestas de psicólogos que afirman que la reorientación sexual es posible. Todos estos coinciden en que la homosexualidad y las identidades transgénero no son innatas y por lo tanto son modificables (Mundo Católico, 2016, Dr. Joseph Nicolosi, 2019 y Renacer, 2021)”.

Published
2021

45. Análisis reflexivo del fenómeno de la valoración del desempeño docente en educación superior

Author

José Manuel Medina Andrade

Subjects
Higher education, business.industry, Process (engineering), media_common.quotation_subject, General Medicine, Action (philosophy), Phenomenon, Pedagogy, Quality (business), Performance indicator, Sociology, Set (psychology), business, Quality assurance, media_common
Abstract

Los criterios y estándares de calidad asociados al personal docente en el plano nacional han suministrado información relevante sobre las competencias, llevando a definir un conjunto de líneas de investigación prioritarias para los organismos reguladores, con foco en el aseguramiento de la calidad en educación superior. Una de las líneas prioritarias es el desarrollo y uso de indicadores de desempeño sobre la docencia de pregrado y posgrado, que centren su acción en la observación permanente e indagación de cada uno de los componentes que le configuran. Algunos datos estadísticos relativos a estudiantes, docentes, recursos, infraestructura y resultados del proceso académico se entrecruzan, buscando comprender la complejidad inherente y constitutiva de la docencia, sin embargo, la investigación en esta área de la mano de universidades u otros organismos, aún parece ser escasa. La presente nota busca reflexionar, brevemente, con base en los datos, sobre el fenómeno de la valoración del desempeño docente y su imperativo protagónico en la calidad educativa en educación superior.

Published
2019
Full Text
View/download PDF

47. A Setting-Free Differential Protection for Power Transformers Based on Second Central Moment

Author

Manuel A. Andrade, Brian K. Johnson, E. Vazquez, and Héctor Esponda

Subjects
Computer science, 020209 energy, Energy Engineering and Power Technology, 02 engineering and technology, Fault (power engineering), Inrush current, Current transformer, law.invention, Harmonic analysis, Electric power system, law, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Central moment, Electrical and Electronic Engineering, Transformer, MATLAB, computer, computer.programming_language
Abstract

This paper describes a differential algorithm for the protection of a three-phase transformer to differentiate transient phenomena, such as inrush currents and external faults from solid and turn-to-turn faults. This algorithm is based on the behavior of the second central moment (SCM) to identify the kind of event. Instantaneous differential currents are used as input signals to the algorithm once they are filtered and normalized. The algorithm compares the magnitude of the SCM with an established threshold based on the binomial distribution to achieve a successful identification of the event. If the magnitude of the SCM is above the limit, the algorithm identifies the event as a fault condition. Otherwise, the event is determined as a transient event or a steady-state condition. The threshold is setting-free if the transformer parameters are changed or if the harmonic content of the differential current varies. Also, the threshold does not have to be recalculated if the power system is modified. The D index was introduced to improve the fault-detection time when the current transformers experience saturation. This index uses the magnitude of the SCM as a basis and is compared with an established limit to detect the fault current. Both indices run in parallel, and if any of them does cross its respective threshold, a fault condition is determined. The algorithm is tested in a real-time digital simulator and is implemented in MATLAB. The algorithm was compared against the conventional differential protection with harmonic restraint to evaluate the performance of both indices in critical conditions. The results validate the performance of the algorithm and indicate that it can be the basis of a new algorithm to protect power transformers.

Published
2019
Full Text
View/download PDF

48. Extended second central moment approach to detect turn‐to‐turn faults in power transformers

Author

Manuel A. Andrade, Héctor Esponda, Brian K. Johnson, E. Vazquez, and Daniel Guillen

Subjects
Differential protection, Computer science, Reactance, law.invention, Transformer windings, law, Control theory, Central moment, Electrical and Electronic Engineering, Transformer, MATLAB, computer, Digital simulator, computer.programming_language
Abstract

This study describes an extended approach to the differential protection of power transformers to identify turn-to-turn faults based on the second central moment (SCM). The proposal uses the differential currents as the input signals to the algorithm. Differential currents are filtered and normalised to allow the proposed algorithm to be independent of the transformer parameters (power, reactance, connection etc.). Then, the SCM magnitude of the differential currents is computed and compared with an established threshold to detect the internal faults. If the SCM magnitude exceeds the limit, an internal fault is detected. Otherwise, the event is determined as a transient event or steady state. The proposed algorithm was implemented in MATLAB and was tested on a three-phase system using a Real-Time Digital Simulator. For laboratory experiments, a real 55-kVA transformer setup was used to validate the effectiveness of the algorithm. The algorithm successfully identified turn-to-turn faults from steady state, as well as during transformer energisations, in over 1000 cases.

Published
2019
Full Text
View/download PDF

49. Comparison of Stationary and Moving Infrared Thermometer Measurements Aboard a Center Pivot

Author

Steven R. Evett, Manuel A. Andrade, Paul D. Colaizzi, and Susan A. O’Shaughnessy

Subjects
Mean squared error, General Engineering, Irrigation scheduling, 04 agricultural and veterinary sciences, Center pivot irrigation, Infrared thermometer, Neutron probe, Evapotranspiration, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Spatial variability, Time series, Remote sensing
Abstract

HighlightsStationary and moving infrared thermometers aboard a center pivot were compared.Comparisons were in terms of directional brightness temperature discrepancies.Discrepancies were within 1.8°C, and many were within 1.0°C.Larger discrepancies tended to occur for sparser vegetation cover.Abstract. Infrared thermometers (IRTs) can measure canopy temperature, which is useful for irrigation and crop management. Center pivot and lateral move irrigation systems are suitable platforms to transport IRTs across cropped fields at regular intervals. IRTs aboard center pivots, when used in conjunction with irrigation scheduling algorithms, have resulted in crop yield and crop water productivity that is equivalent to or greater than what can be achieved using soil water measurements of the root zone profile with a field-calibrated neutron probe. Irrigation scheduling algorithms perform best when stationary IRT measurements are supplemented with moving IRT arrays, where the former provides time series data and the latter provides spatially distributed data. However, the normal deflection of moving irrigation systems and other confounding factors have caused concern that moving IRT measurements may be degraded relative to stationary IRT measurements. Directional brightness temperatures (TB) measured by stationary and moving IRTs were compared over two corn and one potato season at the USDA Agricultural Research Service, Bushland, Texas. Moving and stationary TB were compared in terms of root mean square error, mean absolute error, and mean bias error, and were all < 1.8°C, and many were < 1.0°C, and r2 = 0.95. Error terms tended to be larger for potato, which had less vegetation cover compared with corn. However, error terms were similar to previous studies of calibration and spatial variability for IRTs and thermal imagers. Therefore, TB measurements of moving IRTs did not appear to be degraded relative to TB measurements of stationary IRTs for this study. However, interpretation of stationary and moving IRT measurements may be aided by addition of low cost imagers to distinguish vegetation from soil background. Keywords: Canopy temperature, Crop management, Evapotranspiration, Irrigation, Remote sensing, Sensors.

Published
2019
Full Text
View/download PDF

50. Response of Drought-Tolerant Corn to Varying Irrigation Levels in the Texas High Plains

Author

Manuel A. Andrade, Min-Young Kim, Steven R. Evett, Susan A. O’Shaughnessy, and Paul D. Colaizzi

Subjects
0106 biological sciences, Irrigation, Deficit irrigation, Drought tolerance, Biomedical Engineering, Soil Science, Forestry, 04 agricultural and veterinary sciences, 01 natural sciences, Center pivot irrigation, Crop, Agronomy, Evapotranspiration, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Water-use efficiency, Agronomy and Crop Science, 010606 plant biology & botany, Food Science, Hybrid
Abstract

Corn ( L.) for grain continues to be an important crop for livestock feed in the Texas High Plains (THP) region despite lackluster prices. It offers greater crop water productivity compared with other crops grown in the region but also has a relatively high water requirement, which must be met by irrigation. The sole water resource in the region is the Ogallala Aquifer, which is declining because withdrawals exceed recharge, and this is of major concern. Producers are interested in the performance of drought-tolerant (DT) corn, but data on DT crop production functions are limited. From 2015 to 2017, studies of DT corn response to different irrigation treatments were conducted in the THP at Bushland, Texas. Results showed that grain yields, seasonal evapotranspiration (ETc), and crop water use efficiency (WUE) varied significantly between seasons and among different DT hybrids. Comparisons between a mid-season (MS) and an early-maturing (EM) hybrid showed: (1) at the severe deficit irrigation treatment level, grain yields were low, but the EM hybrid produced 400% more grain; (2) at the moderate deficit irrigation treatment level, grain yields and ETc were similar; and (3) at the full irrigation treatment level, the EM hybrid required 75 mm less water, but it produced 24% less grain. Non-hail damaged MS DT corn produced grain yields that were numerically greater than conventional corn grown in the THP in an optimal year. However, during drought seasons, DT hybrid response was not improved over conventional hybrids under severe deficit irrigation. This study demonstrated that MS DT corn hybrid P1151AM, irrigated at a level that fully met evapotranspiration demand, resulted in grain yield and WUE levels that were near the upper limits for corn produced in the THP. Further research is needed to determine the constancy of response among different DT hybrids under favorable and drought conditions. Keywords: Center pivot, Deficit irrigation, Early-maturing corn, Hail damage, Mid-season corn, Variable-rate irrigation, Water use efficiency.

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results