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Camargo L, Julian R.
- Temperature, Humidity and Irrigation Control System for the Production of Orellana Edible Mushroom in a Greenhouse
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
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Indian Journal of Science and Technology, Vol 11, No 34 (2018), Pagination: 1-17Abstract
Objectives: To improve the quality of the product, an automatic control of temperature, humidity and irrigation was designed for a greenhouse. Methods/Analysis: This paper describes the sensors, actuators, controllers, control algorithms and software that make it possible to know and maintain within an optimal range environmental variables of temperature and humidity inside the room fruiting; as well as substrate moisture feeding the fungus. Findings: As a result, a simulation of the designed system was obtained by a software supervisory control and data acquisition. Improvements: It was concluded that the proposed system is the ability to monitor and control environmental variables, described it above, in the greenhouse of eatable mushroom Orellana; and to adjust variables to a window it was verified that is sufficient control “on/ off”.References
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- Narvaez G. Determinacion delSustrato Optimo para la producción del Hongo Orellana en el Municipio de Pasto, Revista Memorias, Universidad Cooperativa de Pasto. 2009; 7(12):91−101.
- France A. Produccion de Hongos Ostras. Instituto de Investigaciones Agropecuarias, Boletín INIAChilan, Chile. 2000; 23:1−29. Figure 19. Window of the trend graph.
- Boa EP. Los hongos silvestres comestibles. Perspectiva globalOrganizacion de las Naciones Unidas para la poblacion. Productos Forestales No Madereros; 2005. p. 1−170.
- Rodriguez N, Jaramillo C. Cultivo de hongos comestibles del genero Pleurotus sobre residuos agricolas de la zona cafetera. CENICAFE, Boletín tecnico, Chinchina, Colombia. 2005; 27:1−56.
- Arias G, Gutierrez C, Ospina C. Propuesta del Cultivo de Hongo Pleurotus y Lentinula Edodes a Partir de la Biomasa del Cafe en las Fincas Cafeteras de Manizales para el Fortalecimiento de los Programas de Desarrollo Alternativo, Cuadernos Latinoamericanos de Administracion. 2008; 6(6):35−67.
- Setas de la Monta-a, La Orellana: Fuente de Proteína. Date accessed: 12. 2006. http://www.setasyhongos.com.co/.
- Cardona L, Bedoya A. Produccion de Orellanas (Pleurotus ostreatus), deshidratadas y condimentadas. Trabajo de grado M. Sc. (Ciencia y Tecnología de Alimentos). Universidad Nacional de Colombia, Sede Medellín. Facultad de Ciencias Agropecuarias; 1996. p. 1−88.
- Fernandez M. Productividad y eficiencia biologica de dos especies comerciales del hongo comestible Pleurotussp en diferentes sustratos lignocelulósicos. Trabajo de grado Ingeniero Agrónomo. Universidad Nacional de Colombia, Facultad de Ciencias Agropecuarias, Medellín; 2004. p. 59−65.
- Lozano J. Produccion comercial del champi-on Pleurotus Ostreatus en pulpa de cafe, Revista Colombiana de Fitopatologia. 1990; 14(2):42−56.
- Fernandez F. Guia Practica de Produccion de Setas (Pleurotusspp). Fungitecasesorias, guadalajara, jalisco, mexico, marzo; 2004.
- Acedo J. Instrumentacion y Control Avanzado de Procesos. 1st Edition. Espa-a: Ediciones Diaz de Santos; 2006. 1, p. 1−632.
- Creus A. Instrumentacion Industrial. 7th Edition. Alfaomega; México D.F.; 2006. p. 1−773.
- Soisson H. Instrumentacion Industrial. Noriega Editores; México D.F., 2005. p. 1−543.
- Setas Extremadura. PleutorusOstreatus. Date accessed: 18/04/2013. http://setasextremadura.blogspot.com/2012/11/pleurotus-ostreatus.html.
- Agromatic. Cultivo de PleurotusOstreatus. Date accessed: 13/2012. http://www.agromatica.es/cultivo-pleurotus-ostreatus.
- MYCOTEK.ORG. Pasteurization of the substrate. Date accessed: 24/02/2012. https://mycotek.org/index.php?threads/1596/.
- Bolets de Soca. Sustrato productor de seta ostra (PleurotusOstreatus). Sustratos cultivo de setas en casa; 2014.
- Cuexcomate. Agricultura, plantas utiles, etnobotanica, comida... desde Mexico. Date accessed: 04/2012. http://www.cuexcomate.com/2012/04/mmmcultivo-de-hongos-comestibles.html.
- Bello A. Curso de produccion de hongos comestibles a cargo de Laboratorio Biofungi -Arquímedes Bello (licenciadoen biología Universidad Distrital y especialista en Medio Ambiente. Universidad de Cundinamarca), Bogota; 2007.
- Cuervo J, Rodriguez J. Cultivo del Hongo Comestible (Pleurotus Ostreatus Jacq. Kumm) Sobre Residuos Agroforestales. Facultad de Ciencias Agropecuarias, Universidad Nacional de Colombia,Bogota D.C.; Produmedios, Primera; 2013. p. 1−80. PMid: 23331410
- Bonilla YA. Produccion del Hongo Comestible Pleurotus Ostreatus. Barbosa Corpoica; 2003. p. 1−24.
- Irrigation System Designed with SCADA and Wireless Sensor Network Applied to the Colombian Environment
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 34 (2018), Pagination: 1-10Abstract
Objectives: This document describes an automatic irrigation system design, using SCADA software and wireless sensor network. Methods/Analysis: The system was made using the drip irrigation system method, and the communication the field and the supervisor system was established using ZigBee devices connected in mesh topology. The SCADA system monitors four variables of the field: temperature, soil moisture content, water and nutrient level and status of the ZigBee device. Findings: The purpose of this paper is not only to contribute knowledge to the development of the Colombian field, through the application of new technologies of irrigation automation of crops, but to motivate research, development and innovation around this topic. Improvements: It is contemplated the use of a web portal where you can monitor the system, thus adding a notification mode. In addition, the use of redundancy to avoid loss of data in the crop, both on the side of data acquisition, and on the side of storage.References
- Lozano-EspitiaI, Ramírez-Villegas LM. How Productive is Rural Infrastructure? Evidence on Some Agricultural Crops in Colombia, Borradores de Economia. 2016; 948:1−22.
- TECHNOSERVE. Construccion de un modelo deagriculturacompetitivaen Colombia. Bogota D.C, Colombia; 2015. p. 1−123.
- Chandra DG, Malaya DB. Role of e-Agriculture in Rural Development in Indian Context. International Conference on Emerging Trends in Networks and Computer Communications (ETNCC); 2011. p. 320–23.
- Kobayashi K, Kobayashi F, Saito Y. Development of Agricultural Monitoring Application as Media for Social Interaction. SICE Annual Conference; 2011. p. 2065–68.
- Urbano-Molano FA. Redes de Sensores Inalámbricos Aplicadas a Optimizaciónen Agriculturade Precisión para Cultivos de Cafe en Colombia, Chemical Engineering Science. 2012; 5(1):46−52.
- He WQ, Cai MK, Wang YB, Wang XJ. Automatic water supply control system of graded constant pressure by variable frequency speed and its application to pipeline irrigation, Second WRI Global Congress on Intelligent Systems. 2010; 1:385–88. https://doi.org/10.1109/GCIS.2010.81.
- Agrawal N, Singhal S. Smart drip irrigation system using raspberry pi and Arduino. In: International Conference on Computing, Communication and Automation, ICCCA; 2015. p. 928−32.
- Kim Y, Evans RG. Software design for wireless sensor-based site-specific irrigation, Computers and Electronics in Agriculture. 2010; 66(2):159−65. https://doi.org/10.1016/j.compag.2009.01.007.
- Díaz SE, Perez JC, Mateos AC, Marinescu MC, Guerra BB. A novel methodology for the monitoring of the agricultural production process based on wireless sensor networks, Computers and Electronics in Agriculture. 2011; 79(2):252−65. https://doi.org/10.1016/j.compag. 2011.02.004.
- Joint Research Centre (JRC) of the European Commission. Precision Agriculture: An Opportunity for Eu Farmers- Potential Support with the Cap 2014-2020. Directorate-General for Internal Policies Policy Department B: Structural and Cohesion Policies; 2014. p. 1−56.
- Gurban EH, Andreescu GD. SCADA element solutions using Ethernet and mobile phone network. IEEE 9th International Symposium on Intelligent Systems and Informatics; 2011. p. 303–08.
- Lopez-Riquelme JA, Soto F, Suardíaz J, Sánchez P, Iborra A, Vera JA. Wireless Sensor Networks for precision horticulture in Southern Spain, Computers and Electronics in Agriculture. 2009; 68(1):25−35. https://doi.org/10.1016/j.compag.2009.04.006.
- Navarro-Hellín H, Martínez-del-Rincon J, DomingoMiguel R, Soto-Valles F, Torres-Sánchez. A decision support system for managing irrigation in agricultural, Computers and Electronics in Agriculture. 2016;124:121−31. https://doi.org/10.1016/j.compag.2016.04.003.
- Capraro F, Pati-o D, Tosetti S, Schugurensky C. Neural network-based irrigation control for precision agriculture. IEEE International Conference on Networking, Sensing and Control; 2008. p. 357–62.
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- Sohraby K, Minoli D, Znati T. Wireless Sensor Networks: Technology, Protocols, and Applications. John Wiley & Sons, Inc.; 2006. p. 1−326.
- Patel N, Kathiriya H, Bavarva A. Wireless sensor network using ZigBee, International Journal of Research in Engineering and Technology. 2013; 2(6):1038−42. https://doi.org/10.15623/ijret.2013.0206021.
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- Sutana SR, Krishan PB, Gouthami K, Kim TH. Wireless sensor network based remote environmental conditions monitoring system with GPRS, International Journal of Control and Automation. 2015; 8(10):73−80. https://doi.org/10.14257/ijca.2015.8.10.07.
- Application for Historical Record of Operation of an Oil Production Treatment Water Filter
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 35 (2018), Pagination: 1-15Abstract
Objectives: This paper shows the development of an application for the historical record of the values with which a wastewater treatment filter operates in the oil industry, used to eliminate traces of oil and solids, and make it suitable in the injection processes or shedding. Methods/Analysis: After analyzing the data, we proceeded to identify the variables within the filter that had to be shown in the program. After that, the programming work was done in the Programmable Logic Controller (PLC) to make this data accessible. The software Microsoft Excel and RSLinx were selected for the final development, the data was communicated from the PLC to this software, and the application was developed, together with its respective simulation and its use was demonstrated in a real case. The entire process is described in this document and, at the academic level; it can be a source of consultation or guidance for the development of applications and subsequent developments. Findings: Process that is automated and therefore uses a PLC (programmable logic controller) for control and operation, together with HMI screens (Human Machine Interface), which make it possible for operators to control and supervise their operation, but do not have software that allow to record its value over time, software that would be useful for field coordinators, maintenance managers and manufacturer representatives, in order to determine efficiency parameters and detect or correct faults. Improvements: The registration can be done to view it via WEB on any device.References
- Jaimes DM, Pico MI. Dise-o de la planta de tratamiento de aguas residuales y de produccion evaluando las diferentes alternativas nacionales y extranjeras, aplicación campo Colorado. Universidad Industrial de Santander (UIS); 2009. p. 1–228.
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- Rodríguez A, Leton A. Tratamientos avanzados de aguas residuales industriales. Informe de vigilancia tecnologica de la Universidad de Alcala del Círculo de Innovacion en Tecnologías Medioambientales y Energía (CITME), Espa-a; 2006. p. 7–9. PMCid: PMC1513582.
- Olarte J, Rodríguez A.Dise-o E Implementacion Del Sistema Scada Factory Talk View De Allen Bradleya Una Maquina Prototipo De Embalaje En El Laboratorio De Automatizacion De Procesos De La Universidad Pontificia Bolvariana. Universidad Pontificia Bolivarianaescuela De Ingeniería; 2011. p. 1–240. PMid: 21553545.
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- Foxall J. VISUAL BASIC 2012: Paso a paso. Anaya Multimedia; 2006.
- SCADA System for Supervision of Diesel Consumption and Energy Efficiency for Electric Generators
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Authors
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 35 (2018), Pagination: 1-8Abstract
Objectives: This paper describes the process of designing a SCADA platform developed on a graphic programming environment using the Labview software tool. Methods/Analysis: Its purpose is aimed at monitoring the fuel consumption of diesel power plants and their electrical generation, making it possible through the interface and graphic indicators, to show the levels of level in the fuel tanks, the consumption of diesel in real time and electrical generation among others, in order to determine if a generator is behaving efficiently according to the indices determined by the manufacturer. Findings: If the operating criteria are not maintained, it would mean that fuel waste is being produced with the economic and environmental implications that it also implies that electromechanical corrections must be made in order for there to be efficient electrical generation. Improvements: You can use a web portal where you can monitor the system, adding a notification mode.References
- Generacion electrica con motores diesel y gas natural. https://bit.ly/2wGgOCo. Date accessed: 04/06/2009.
- Prezi. Generacion Electrica con Motor Diesel de 5MW. https://prezi.com/fvkoyftb6mws/generacion-electrica-con-motor-diesel-de-5mw/. Date accessed: 19/11/2012.
- Rojas O. Software para Aplicaciones Industriales. Universidad del Cauca. Especializacion En Informatica Industrial. 2002, pp. 1-9.
- Romero Morales, Cristóbal, “Introducción a SCADA”, Interfaz Hombre Máquina, Universidad de Cordoba. http:// www.uco.es/investiga/grupos/eatco/automatica/ihm/descargar/ scada.pdf. Date accessed: 11/07/2016.
- Schneider Electric. 7 Tips for Selecting the Right SCADA System for Your Needs. http://blog.wonderware.com/2015/05/7-tips-for-selecting-right-scada-system.html. Date accessed: 29/05/2015.
- Indusoft. ¿Cual es la diferencia entre SCADA y HMI? http://www.indusoft.com/blog/2013/05/31/cual-es-la-diferenciaentrescada-y-hmi/. Date accessed: 31/05/2013.
- Automatas.org. Sistemas SCADA. https://bit.ly/2LYRH3n. Date accessed: 02/03/2006.
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- Multi-Criteria Decision Method using the Analytical Hierarchy Process for the Selection of High Efficiency Three-Phase Motors in Colombia
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 40 (2018), Pagination: 1-8Abstract
Objectives: To present a guide for decision making when replacing a low-efficiency three-phase electric motor with a high efficiency three-phase motor and the technical and economic factors that must be considered in said process. Methods/ Analysis: This study is making use of a methodology based on the multi-criteria selection method called AHP (Analytical Hierarchical Process), which is a formal instrument for the evaluation and selection of alternatives, with solid mathematical foundations and simple in its application. Findings: For centrifugal applications, special care must be taken when selecting a high efficiency motor, since due to the effect described by the affinity laws the energy consumption will be greater than expected. Improvements: A possible solution to reduce the effects of higher consumption in centrifugal loads would be the use of Frequency Variators or change of pulley ratio.References
- WEG. Global MEPS Guide for Low Voltage Motors 2016. Available from: http://ecatalog.weg.net/files/ wegnet/WEG-global-meps-guide-for-low-voltage-motors-50060049-brochure-english.pdf. Date accessed: 06/2016.
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- SIEMENS. Minimum Energy Performance Standards. 2016. Available from: https://www.industry.siemens.com/drives/global/en/motor/low-voltage-motor/efficiency-standards/Documents/meps-regulations-en.pdf. Date accessed: 04/2016.
- Londo-oParra CM, Ramirez Echavarria JL. Normas de Eficiencia Energetica de Motores de Induccion, Esta Preparada Latinoamerica? TecnoLogicas. 2013; 30:117-47.
- Ministerio de Minas y Energia. Anexo General Reglamento Tecnico de Etiquetado RETIQ, Colombia. 2015. Available from: https://www.minminas.gov.co/retiq. Date accessed: 18/09/2015.
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- Poor Posture Indicator by Means of Accelerometers,With Voice Alarm using a Smartphone with Android
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 40 (2018), Pagination: 1-8Abstract
Objectives: To design and implement a poor posture indicator device based on the use of accelerometers and an Android application. Methods/Analysis: It begins with the design of the circuits based on the selected sensors, the characterization of these from a specific distribution along the spine and finally the development of a mobile application that allows to alert bad posture according to a certified standard in orthopedics. Findings: The back was approached from the bio-mechanical point of view through three basic curves to determine if a person is or is not well positioned in order to alert him about his bad posture so that he can correct it and thus reduce the likelihood of suffering ailments in the future. Improvements: The way in which the sensors are secured to the user can be improved, thus ensuring their proper operation.References
- Claus AP, Hides JA, Moseley GL, Hodges PW. Is 'ideal' sitting posture real? Measurement of spinal curves in four sitting postures. Manual Therapy. 2009 Aug; 14(4):404–8. https://doi.org/10.1016/j.math.2008.06.001. PMid:18793867.
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- System of Monitoring and Guidance of Autonomous Vehicles based on Machine Vision
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 41 (2018), Pagination: 1-8Abstract
Objectives: To describe the design and implementation of an autonomous vehicle monitoring and guidance system (AGV) based on machine vision. Methods/Analysis: The design of each of the modules was established: Machine vision that obtains the position, orientation and identification of each AGV from the recognition of the detector codes. The wireless communication interface from the use of the Xbee module and that establishes the communication between the AGVs and the central host. And the central controller makes the decision of the host for each AGV as the control of traffic and movement. Findings: For each of these modules the relevant tests were carried out in 3 stages in which the first one tested the HMI that allows the user to control the whole system. The second stage tests were performed on each of the modules for one and two cameras, and the last stage examines the behavior of the complete system from the data obtained from the second stage. Improvements: By using a better resolution camera the system can operate with better results.References
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- Implementation of a SCADA System for the Control of an Intelligent Microgrid in a Rural Area
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1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
1 Universidad Distrital Francisco Jose de Caldas, Bogota D.C., CO
Source
Indian Journal of Science and Technology, Vol 11, No 42 (2018), Pagination: 1-9Abstract
Objectives: To determine the criteria to follow for the implementation of a SCADA system in the design of an intelligent micro-grid. Methods/Analysis: Through this development some problems have been evidenced to maintain the control and communication in the interaction of each one of the elements that intervene in the network. For this reason it is intended to design a SCADA system for the control and communication of each one of the elements that intervene there in order to mitigate the problems evidenced. Findings: Obviously the issue concerning the optimization of energy resources to reduce the negative impact on the environment is an imperative parameter that every developed country should have and is a determining factor to ensure both the economic sustainability and the social and environmental well-being of a country. Improvements: This is how automation and control allows a network to be intelligent so that said network can optimize energy resources with quality.References
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