Temperature and Condition Monitoring customer stories from Extronics AdvanceSusie Marriott
See the value that AeroScout condition monitoring solutions have brought to our industrial customers; improved compliance, easier auditing, and better analysis.
Tom Chestnut (NSF International): Wearable Technology - Current Applications ...AugmentedWorldExpo
This document discusses NSF International's use of wearable technology like Google Glass for food safety audits and inspections. It describes how NSF conducted an initial pilot using Glass for a remote audit. NSF has since expanded its use of wearables for training, remote inspections of hazardous locations, and quality evaluations. The document outlines several food industry applications of wearable tech and lessons learned from implementation, including the importance of change management. It concludes by discussing NSF's investment in augmented reality as a future enterprise solution for the food industry to transform food safety.
This document discusses evaluating the management system currently used at RSUD Arfin Achmad hospital. It proposes using the Unified Theory of Acceptance and Use of Technology (UTAUT) model for the evaluation. UTAUT is a technology acceptance theory developed by Venkatesh et al. in 2003 to identify factors influencing user acceptance of information technology. The document then defines key terms related to the hospital management information system and user acceptance.
Free range farming for eggs and meat located off Bangalore'Free range birds have a slightly more natural diet than those kept in
battery farms. They can eat grass and bugs in addition to their
ration. This is a more complete, natural, diet for chickens. Battery
laying hens are fed a ration that is geared towards egg production.
When you eat eggs from a free range bird you can often tell because
the yolk is darker, indicating a better diet. The birds are free from
non therapeutic antibiotics, weight inducing hormones. Natural egg productivity is maintained by not practicing false molting.
Healthier birds means healthier eggs and meat!
Better Looking, Better Tasting.
The eggs look and taste better when they come from free range birds.
The taste is evident when compared. The battery hen egg has a
pale yellow, flat, yolk, while the free range egg will have a deeper
yellow yolk that stands higher & shells are stronger and mostly tan colour.
This document summarizes a poultry farm management training and certification program developed by University of Maryland Extension for new and existing poultry growers. The program covers best management practices, regulations, production management, and more. Over 250 producers have participated in quarterly workshops. The material was also translated to Vietnamese and Korean and over 70 immigrant farmers were trained. Surveys found that most participants better understood broiler operations and many planned to implement recommended best management practices on their farms.
This document describes the steps to build a simple website for a small business. It explains that first a domain name needs to be purchased and website hosting services obtained. Then website development software will be used to design the pages with content about the business and services offered. Basic HTML and CSS will be used to format the text and images. Finally, the site will be launched online and periodically updated as the business grows.
Poultry Nutrition: Growth and Maintenance_ AfghanistaneAfghanAg
The document discusses the six essential nutrients required in a poultry diet: water, protein, carbohydrates, fats, vitamins, and minerals. Each nutrient serves an important function: water is critical for digestion and temperature regulation; proteins and amino acids are the building blocks for the bird's body and egg production; carbohydrates and fats provide energy; and vitamins and minerals support bone formation, enzyme activation, and other metabolic processes necessary for growth, health, and reproduction. A balanced diet containing all six nutrients in proper amounts is required to avoid deficiencies that can impact growth, egg production, eggshell quality, and other factors.
For more: http://www.extension.org/68315 Managing animal mortalities is an unpleasant but necessary part of raising livestock or poultry. Improper carcass disposal can negatively impact the environment and be a source of disease or pathogens. This material was developed for use in beginning farmer and extension programs, high school classrooms, and for self-study or professional continuing education.
Temperature and Condition Monitoring customer stories from Extronics AdvanceSusie Marriott
See the value that AeroScout condition monitoring solutions have brought to our industrial customers; improved compliance, easier auditing, and better analysis.
Tom Chestnut (NSF International): Wearable Technology - Current Applications ...AugmentedWorldExpo
This document discusses NSF International's use of wearable technology like Google Glass for food safety audits and inspections. It describes how NSF conducted an initial pilot using Glass for a remote audit. NSF has since expanded its use of wearables for training, remote inspections of hazardous locations, and quality evaluations. The document outlines several food industry applications of wearable tech and lessons learned from implementation, including the importance of change management. It concludes by discussing NSF's investment in augmented reality as a future enterprise solution for the food industry to transform food safety.
This document discusses evaluating the management system currently used at RSUD Arfin Achmad hospital. It proposes using the Unified Theory of Acceptance and Use of Technology (UTAUT) model for the evaluation. UTAUT is a technology acceptance theory developed by Venkatesh et al. in 2003 to identify factors influencing user acceptance of information technology. The document then defines key terms related to the hospital management information system and user acceptance.
Free range farming for eggs and meat located off Bangalore'Free range birds have a slightly more natural diet than those kept in
battery farms. They can eat grass and bugs in addition to their
ration. This is a more complete, natural, diet for chickens. Battery
laying hens are fed a ration that is geared towards egg production.
When you eat eggs from a free range bird you can often tell because
the yolk is darker, indicating a better diet. The birds are free from
non therapeutic antibiotics, weight inducing hormones. Natural egg productivity is maintained by not practicing false molting.
Healthier birds means healthier eggs and meat!
Better Looking, Better Tasting.
The eggs look and taste better when they come from free range birds.
The taste is evident when compared. The battery hen egg has a
pale yellow, flat, yolk, while the free range egg will have a deeper
yellow yolk that stands higher & shells are stronger and mostly tan colour.
This document summarizes a poultry farm management training and certification program developed by University of Maryland Extension for new and existing poultry growers. The program covers best management practices, regulations, production management, and more. Over 250 producers have participated in quarterly workshops. The material was also translated to Vietnamese and Korean and over 70 immigrant farmers were trained. Surveys found that most participants better understood broiler operations and many planned to implement recommended best management practices on their farms.
This document describes the steps to build a simple website for a small business. It explains that first a domain name needs to be purchased and website hosting services obtained. Then website development software will be used to design the pages with content about the business and services offered. Basic HTML and CSS will be used to format the text and images. Finally, the site will be launched online and periodically updated as the business grows.
Poultry Nutrition: Growth and Maintenance_ AfghanistaneAfghanAg
The document discusses the six essential nutrients required in a poultry diet: water, protein, carbohydrates, fats, vitamins, and minerals. Each nutrient serves an important function: water is critical for digestion and temperature regulation; proteins and amino acids are the building blocks for the bird's body and egg production; carbohydrates and fats provide energy; and vitamins and minerals support bone formation, enzyme activation, and other metabolic processes necessary for growth, health, and reproduction. A balanced diet containing all six nutrients in proper amounts is required to avoid deficiencies that can impact growth, egg production, eggshell quality, and other factors.
For more: http://www.extension.org/68315 Managing animal mortalities is an unpleasant but necessary part of raising livestock or poultry. Improper carcass disposal can negatively impact the environment and be a source of disease or pathogens. This material was developed for use in beginning farmer and extension programs, high school classrooms, and for self-study or professional continuing education.
IRJET - An Effective Automated Monitoring and Controlling of Poultry Farm usi...IRJET Journal
This document describes a proposed system to automate and monitor a poultry farm using IoT technology. The system would automatically control and monitor key parameters like temperature, food feeding, movement of chickens, weight of chickens, and disposal of waste. Sensors would monitor these parameters and a microcontroller would control devices like fans, food dispensers, and motors to automate tasks. Data would be sent to the cloud and alerts could be sent to farmers via a mobile app. This would help reduce labor needs, improve health and growth of chickens, and make farm management easier.
This document describes a proposed smart poultry farm control system using Internet of Things (IoT) technologies. Sensors would monitor environmental parameters like temperature, humidity, and heat in the farm. An Arduino microcontroller would connect the sensors to a cloud database and control fans and lights automatically based on the sensor readings. Chicken details like weight and purchase date would also be stored in the database. The system aims to automate farm monitoring and control to improve productivity and quality while reducing costs and labor.
20131129 FFF El proyecto Foodmanufuture_Christophe CotillonFIAB
This document summarizes a workshop on applying microsystems in the food industry. It discusses how microsystems can help address challenges in food safety, quality, authenticity and resource use. The FoodMicroSystems project developed 4 roadmaps covering technological needs, trends, and the level of integration/functionality for various sectors like dairy, chemicals detection and bio-chemical sensing. While microsystems offer opportunities, industry constraints, consumer perceptions, and ethical issues must be considered to move technologies from the lab to in-line measurements and ensure adoption. Continued funding, networking and roadmapping are needed to realize opportunities.
IRJET - Poultry Farm Controlling based on IoTIRJET Journal
This document describes a poultry farm monitoring system using IoT technology. The system uses sensors to monitor temperature, humidity, gas levels and food levels in the farm. An Arduino Mega controller collects data from the sensors and sends it to the cloud. Users can then view the sensor data through a mobile app, which will also notify them of any abnormal conditions. The system aims to automate 80% of the farm monitoring process and remotely manage conditions in the poultry house.
SmartCenterPro™ Hatchery Information SystemHenry Arts
Food safety, sustainability and animal welfare have become strategic, business critical factors in the poultry value chain.
Increasing consumer awareness of the origin and safety of food means that today’s retailers and fast food chains demand complete traceability from their suppliers, especially when choosing fresh produce, meat and poultry products. Meeting this demand is shaping the future for modern hatcheries.
SmartCenterPro™ is a hatchery information system created to deliver precise, consistent process control through every level of hatchery operations. Incubation, climate control and hatchery automation systems can be fully optimised, seamlessly connected and data enabled: an ‘internet of things’ approach that harnesses the most advanced web-based technologies to deliver detailed hatchery monitoring, management, analysis and reporting.
Accessible from any SmartTouch™ interface anywhere in the hatchery for data entry and overview, SmartCenterPro™ unlocks the power of greater connectivity and the most comprehensive data capture capability in the industry.
emka TECHNOLOGIES provides a complete suite of integrated solutions for pulmonary studies:
- conscious, unrestrained, freely moving animal in whole body plethysmograph
- conscious, restrained animal in head-out or double chamber plethysmograph
- anesthetized animal in standard plethysmograph, with spontaneous or ventilated breathing
- full pulmonary mechanics systems
- exposure systems :aerosol, gas, cigarette smoke
This document discusses Yokogawa's solutions for improving health, safety, and environmental (HSE) measures at industrial plants. It outlines various control devices, ancillary devices, and services that Yokogawa provides to help ensure plant efficiency and enhance HSE, including continuous emission monitoring, operator training simulation, regulatory control stabilization consulting, best practice pilot implementation, and alarm rationalization. The solutions help maintain safety, stability, and protect the environment while complying with regulations. Total integration of HSE solutions with distributed control systems, manufacturing execution systems, and enterprise resource planning software is also highlighted.
This document describes a proposed IOT-based smart poultry farm system that aims to automate feeding, temperature control, and gas reduction processes. The system would use sensors to monitor environmental parameters and control devices like a food feeder, water sprinkler, and soil mixer. It could allow farmers to remotely monitor and control operations through a mobile app. This would help reduce labor costs and human errors while improving animal welfare and production efficiency compared to manual farming methods. The proposed system architecture involves an Arduino board controlling devices based on input from sensors to automate key tasks like feeding chickens on schedule, maintaining optimal temperatures, and reducing gases through soil mixing.
IoT based detection of microbial activity in raw milk by using Intel Galileo ...IRJET Journal
This document presents a proposed system for real-time monitoring of microbial activity in raw milk using Intel Galileo Gen II and gas sensors. The system aims to detect bacteria or microbes in raw milk that can lead to spoilage indicated by the presence of ethanol, acetic acid, and acetaldehyde. Gas sensors including TGS813, TGS822, and TGS2620 will detect these gases and send the data to the Intel Galileo Gen II board for processing. The processed data will then be stored on a cloud server for access by customers to check milk quality in real-time. The system is intended to help identify spoiled milk earlier than conventional techniques and improve food safety.
EnviroSuite - A Compliance Tool for Air Quality ProfessionalsEnviroSuite
EnviroSuite is more than a data management tool or a monitoring platform. It’s collated knowledge from leading air quality experts, placed into your hands to empower your department to respond, analyze and predict.
Inpeco is a global leader in total laboratory automation, providing solutions like ProTube for sample collection centers and FlexLab for clinical laboratories. Their solutions combine open system automation with full sample traceability from collection to results. This enables accurate and validated test results, expedited delivery of results, and increased productivity while freeing up staff for more valuable tasks. Inpeco's vision is to advance the diagnostic testing process through continued innovation.
This document summarizes the new features and capabilities of the VITEK 2 Compact system for microbial identification. Key points include:
- The system has redesigned test cards with 64 wells, pre-inserted straws, and barcodes for improved accuracy, fewer manual steps, and full traceability.
- Four new test cards (GN, GP, BCL, YST) have been developed to identify different types of microorganisms, achieving identification rates of 85-100% within 10-18 hours.
- The system features an intuitive interface, automated functions to reduce manual steps and increase productivity, and software compliant with regulatory standards.
Livestock farm Data Acquisition-Processing and management ..pdfHari Om Pandey
Livestock data acquisition essentially used in Smart Farming where a large amount of connected technologies produces a huge amount of data in order to maximize productions by reducing: human efforts, environment impact and wasting natural resources. It helps in improving livestock production, animals’ welfare, and farming processes, allowing to ease monitoring operations that can help farmers.
emka TECHNOLOGIES and SCIREQ provide innovative products and services for in vivo and in vitro research for over 20 years.
Our hardware and software are used daily, validated by major pharma companies and CROs and cited in over 2,000 peer-reviewed scientific publications.
emka TECHNOLOGIES and SCIREQ offer a complete line of hardware for:
- cardiovascular studies (flowmeters, blood pressure and ECG amplifiers, external telemetry, transducers, pressure-volume loop systems ...)
- respiratory studies (plethysmographs, ventilators, transducers, aerosol generators...)
- central nervous system studies (head-mounted or backpack solution for rodent)
IRJET- The Sensor Technologies for More Efficient Cow Reproduction SystemsIRJET Journal
This document discusses sensor technologies that can be used to more efficiently detect estrus cycles in dairy cows. It provides an overview of various sensor types currently available, including those that monitor standing activity, mounting activity, walking activity, restlessness, and vocalization. The sensors aim to accurately detect behavioral and physiological changes in cows during estrus to help farmers more efficiently determine optimal insemination timing and improve fertility rates. While visual observation remains challenging, sensor technologies provide opportunities to automate estrus detection, reduce labor needs, and increase milk yields and profits through higher fertility success.
Yokogawa in the Petrochemical Industry | VigilantPlantYokogawa
Brochure about Yokogawa's presence in the Petrochemical industry. Yokogawa's VigilantPlant solutions deliver visibility, predictability and agility for your petrochemical business.
Seminar on computerization in food industries.pptxAdarsh N D
Computerization in the food industries has increased significantly over time as the costs of computer components have decreased and their ability to withstand food processing environments has improved. Computerized control systems help food companies produce high quality products efficiently while reducing costs and production time. Specialized industrial computers and monitors are particularly useful in food processing as they can streamline operations, improve traceability and product quality, and reduce risks of contamination. Computerization has been adopted in various food sectors like fish processing, meat and poultry, dairy, fruits and vegetables, bakery, and beverages. Advanced technologies like hyperspectral imaging, mass spectrometry, and machine learning are further enhancing automation and quality control in food production.
RGT-01 based on the differential pressure method and fluid level analysis technique, is the only instrument in the market so far that provides the quantitative analysis of seal performance and residual oxygen for various flexible vacuum packages.
IRJET - An Effective Automated Monitoring and Controlling of Poultry Farm usi...IRJET Journal
This document describes a proposed system to automate and monitor a poultry farm using IoT technology. The system would automatically control and monitor key parameters like temperature, food feeding, movement of chickens, weight of chickens, and disposal of waste. Sensors would monitor these parameters and a microcontroller would control devices like fans, food dispensers, and motors to automate tasks. Data would be sent to the cloud and alerts could be sent to farmers via a mobile app. This would help reduce labor needs, improve health and growth of chickens, and make farm management easier.
This document describes a proposed smart poultry farm control system using Internet of Things (IoT) technologies. Sensors would monitor environmental parameters like temperature, humidity, and heat in the farm. An Arduino microcontroller would connect the sensors to a cloud database and control fans and lights automatically based on the sensor readings. Chicken details like weight and purchase date would also be stored in the database. The system aims to automate farm monitoring and control to improve productivity and quality while reducing costs and labor.
20131129 FFF El proyecto Foodmanufuture_Christophe CotillonFIAB
This document summarizes a workshop on applying microsystems in the food industry. It discusses how microsystems can help address challenges in food safety, quality, authenticity and resource use. The FoodMicroSystems project developed 4 roadmaps covering technological needs, trends, and the level of integration/functionality for various sectors like dairy, chemicals detection and bio-chemical sensing. While microsystems offer opportunities, industry constraints, consumer perceptions, and ethical issues must be considered to move technologies from the lab to in-line measurements and ensure adoption. Continued funding, networking and roadmapping are needed to realize opportunities.
IRJET - Poultry Farm Controlling based on IoTIRJET Journal
This document describes a poultry farm monitoring system using IoT technology. The system uses sensors to monitor temperature, humidity, gas levels and food levels in the farm. An Arduino Mega controller collects data from the sensors and sends it to the cloud. Users can then view the sensor data through a mobile app, which will also notify them of any abnormal conditions. The system aims to automate 80% of the farm monitoring process and remotely manage conditions in the poultry house.
SmartCenterPro™ Hatchery Information SystemHenry Arts
Food safety, sustainability and animal welfare have become strategic, business critical factors in the poultry value chain.
Increasing consumer awareness of the origin and safety of food means that today’s retailers and fast food chains demand complete traceability from their suppliers, especially when choosing fresh produce, meat and poultry products. Meeting this demand is shaping the future for modern hatcheries.
SmartCenterPro™ is a hatchery information system created to deliver precise, consistent process control through every level of hatchery operations. Incubation, climate control and hatchery automation systems can be fully optimised, seamlessly connected and data enabled: an ‘internet of things’ approach that harnesses the most advanced web-based technologies to deliver detailed hatchery monitoring, management, analysis and reporting.
Accessible from any SmartTouch™ interface anywhere in the hatchery for data entry and overview, SmartCenterPro™ unlocks the power of greater connectivity and the most comprehensive data capture capability in the industry.
emka TECHNOLOGIES provides a complete suite of integrated solutions for pulmonary studies:
- conscious, unrestrained, freely moving animal in whole body plethysmograph
- conscious, restrained animal in head-out or double chamber plethysmograph
- anesthetized animal in standard plethysmograph, with spontaneous or ventilated breathing
- full pulmonary mechanics systems
- exposure systems :aerosol, gas, cigarette smoke
This document discusses Yokogawa's solutions for improving health, safety, and environmental (HSE) measures at industrial plants. It outlines various control devices, ancillary devices, and services that Yokogawa provides to help ensure plant efficiency and enhance HSE, including continuous emission monitoring, operator training simulation, regulatory control stabilization consulting, best practice pilot implementation, and alarm rationalization. The solutions help maintain safety, stability, and protect the environment while complying with regulations. Total integration of HSE solutions with distributed control systems, manufacturing execution systems, and enterprise resource planning software is also highlighted.
This document describes a proposed IOT-based smart poultry farm system that aims to automate feeding, temperature control, and gas reduction processes. The system would use sensors to monitor environmental parameters and control devices like a food feeder, water sprinkler, and soil mixer. It could allow farmers to remotely monitor and control operations through a mobile app. This would help reduce labor costs and human errors while improving animal welfare and production efficiency compared to manual farming methods. The proposed system architecture involves an Arduino board controlling devices based on input from sensors to automate key tasks like feeding chickens on schedule, maintaining optimal temperatures, and reducing gases through soil mixing.
IoT based detection of microbial activity in raw milk by using Intel Galileo ...IRJET Journal
This document presents a proposed system for real-time monitoring of microbial activity in raw milk using Intel Galileo Gen II and gas sensors. The system aims to detect bacteria or microbes in raw milk that can lead to spoilage indicated by the presence of ethanol, acetic acid, and acetaldehyde. Gas sensors including TGS813, TGS822, and TGS2620 will detect these gases and send the data to the Intel Galileo Gen II board for processing. The processed data will then be stored on a cloud server for access by customers to check milk quality in real-time. The system is intended to help identify spoiled milk earlier than conventional techniques and improve food safety.
EnviroSuite - A Compliance Tool for Air Quality ProfessionalsEnviroSuite
EnviroSuite is more than a data management tool or a monitoring platform. It’s collated knowledge from leading air quality experts, placed into your hands to empower your department to respond, analyze and predict.
Inpeco is a global leader in total laboratory automation, providing solutions like ProTube for sample collection centers and FlexLab for clinical laboratories. Their solutions combine open system automation with full sample traceability from collection to results. This enables accurate and validated test results, expedited delivery of results, and increased productivity while freeing up staff for more valuable tasks. Inpeco's vision is to advance the diagnostic testing process through continued innovation.
This document summarizes the new features and capabilities of the VITEK 2 Compact system for microbial identification. Key points include:
- The system has redesigned test cards with 64 wells, pre-inserted straws, and barcodes for improved accuracy, fewer manual steps, and full traceability.
- Four new test cards (GN, GP, BCL, YST) have been developed to identify different types of microorganisms, achieving identification rates of 85-100% within 10-18 hours.
- The system features an intuitive interface, automated functions to reduce manual steps and increase productivity, and software compliant with regulatory standards.
Livestock farm Data Acquisition-Processing and management ..pdfHari Om Pandey
Livestock data acquisition essentially used in Smart Farming where a large amount of connected technologies produces a huge amount of data in order to maximize productions by reducing: human efforts, environment impact and wasting natural resources. It helps in improving livestock production, animals’ welfare, and farming processes, allowing to ease monitoring operations that can help farmers.
emka TECHNOLOGIES and SCIREQ provide innovative products and services for in vivo and in vitro research for over 20 years.
Our hardware and software are used daily, validated by major pharma companies and CROs and cited in over 2,000 peer-reviewed scientific publications.
emka TECHNOLOGIES and SCIREQ offer a complete line of hardware for:
- cardiovascular studies (flowmeters, blood pressure and ECG amplifiers, external telemetry, transducers, pressure-volume loop systems ...)
- respiratory studies (plethysmographs, ventilators, transducers, aerosol generators...)
- central nervous system studies (head-mounted or backpack solution for rodent)
IRJET- The Sensor Technologies for More Efficient Cow Reproduction SystemsIRJET Journal
This document discusses sensor technologies that can be used to more efficiently detect estrus cycles in dairy cows. It provides an overview of various sensor types currently available, including those that monitor standing activity, mounting activity, walking activity, restlessness, and vocalization. The sensors aim to accurately detect behavioral and physiological changes in cows during estrus to help farmers more efficiently determine optimal insemination timing and improve fertility rates. While visual observation remains challenging, sensor technologies provide opportunities to automate estrus detection, reduce labor needs, and increase milk yields and profits through higher fertility success.
Yokogawa in the Petrochemical Industry | VigilantPlantYokogawa
Brochure about Yokogawa's presence in the Petrochemical industry. Yokogawa's VigilantPlant solutions deliver visibility, predictability and agility for your petrochemical business.
Seminar on computerization in food industries.pptxAdarsh N D
Computerization in the food industries has increased significantly over time as the costs of computer components have decreased and their ability to withstand food processing environments has improved. Computerized control systems help food companies produce high quality products efficiently while reducing costs and production time. Specialized industrial computers and monitors are particularly useful in food processing as they can streamline operations, improve traceability and product quality, and reduce risks of contamination. Computerization has been adopted in various food sectors like fish processing, meat and poultry, dairy, fruits and vegetables, bakery, and beverages. Advanced technologies like hyperspectral imaging, mass spectrometry, and machine learning are further enhancing automation and quality control in food production.
RGT-01 based on the differential pressure method and fluid level analysis technique, is the only instrument in the market so far that provides the quantitative analysis of seal performance and residual oxygen for various flexible vacuum packages.
1. … .an innovative and powerful instrument for the poultry management and welfare self-control in the environment of the PLF (Precision Livestock Farming). created by a project of the INNOVATION DIVISION of The TELEVET SYSTEM ® [email_address] Italia Pegasus Institute Viale Italia, 118 47100 Forli’ – Italy
2. PRECISION LIVESTOCK FARMING (PLF) CONCEPT : The application of the principles and techniques of process engineering to livestock farming to monitor, model and manage animal production. Italia Pegasus Institute SpA
3. FARMER’ VIEW SUSTAINABLE LIVESTOCK PRODUCTION REQUIRES TIGHT PRODUCT SPECIFICATION TO BE MET PROFITABLY BY SKILLED STOCKMEN WITH MINIMAL ENVIRONMENTAL IMPACT AND A HIGH STANDARD HEALTH AND WELFARE… CONSUMER’S VIEW ………… .FOOD MUST BE SAFE, TASTY AND CHEAP AND A HIGH STANDARD HEALTH AND WELFARE… Italia Pegasus Institute SpA
4.
5. The Televet project was developed through a business partnership between Italia Pegasus Institute, Confor and the Rome University ‘La Sapienza’, to respond to emerging poultry farming requirements dictated by new European regulations, aimed at animal wellbeing and self-control of poultry farms, to solve the tracking and the tracing in the primary stage of the food chain and to improve the food safety chain in relation to the zoonoses too. Italia Pegasus Institute SpA P L F
6.
7.
8. Shed Remote Control “ Televet System”® Italia Pegasus Institute SpA
9. The “system architecture” “ Televet System”® The Company The shed The Clients Italia Pegasus Institute SpA