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Smart Agriculture Project Ensures Crops Health and Reduces Losses
技术
- 功能应用 - 远程监控系统
- 网络与连接 - 网关
- 网络与连接 - WiFi
- 传感器 - 湿度传感器
- 传感器 - 液位传感器
- 传感器 - 温度传感器
适用行业
- 农业
适用功能
- 商业运营
用例
- 远程资产管理
挑战
传统农业公司多年来一直在使用如今已经过时的相同工具和流程。大多数从事农业部门工作的组织已经意识到尖端技术在简化日常工作、减少损失或提高产量和产品质量方面的巨大潜力。无线传感器网络为农民和农业管理组织开辟了广泛的可能性。从任何田地的不同水、土壤或空气参数中获取实时信息,可以做出明智的战略决策,以节省资源并优化产量。
客户
未公开
关于客户
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解决方案
所有传感器节点都通过网状 wifi 网络连接,使用 WPA2 身份验证。数据以 5 到 15 分钟的间隔发送到云端。节点使用 HTTP 与现场网关进行通信。网关反过来使用 TLS1.2 与 Agnov8 的基于云的 SaaS 平台进行安全通信。 Agnov8 的多租户 SaaS 托管在 AWS 云平台上。通过该平台,任何用户都可以访问每个传感器模块,根据其位置查看传感器测量数据。传感器捕获的原始数据可以下载用于商业智能或其他研究目的。该平台正在升级新功能,以通过电子邮件或短信通知事件以提醒客户。
收集的数据
Accuracy, Crop Conditions, Precision, Soil Moisture Meters, Water Level
运营影响
数量效益
相关案例.
Case Study
Intelligent Farming with ThingWorx Analytics
Z Farms was facing three challenges: costly irrigation systems with water as a limited resource, narrow optimal ranges of soil moisture for growth with difficult maintenance and farm operators could not simply turn on irrigation systems like a faucet.
Case Study
Greenhouse Intelligent Monitoring and Control Solution
Farming Orchids is the most successful form of precision farming in Taiwan, and also the most exported flower. Orchids need a specific temperature and humidity conditions to grow and bloom, and its flowering time may not be in line with market demands, so the price collapses when there is overproduction. Therefore, some farmers began to import automated greenhouse control systems for breeding and forcing, which not only improves quality, but also effectively controls the production period and yield to ensure revenue. In 2012, an orchid farmer built a Forcing Greenhouse of about 200 pings (approximately 661 Square Meters) in Tainan, Taiwan. The system integrator adopted Advantech’s APAX-5000 series programmable automation controllers to build the control platform, coupled with Advantech WebAccess HMI/SCADA software, to achieve cloud monitoring. The staff of the orchid field can monitor important data anytime via smart phone, iPad, and other handheld devices, and control the growth and flowering conditions. System requirements: In the past, most environmental control systems of orchid greenhouses in Taiwan used PLCs (Programmable Logic Controller) with poorscalability and control, and could not be connected to the Internet formonitoring from the cloud. For advanced database analysis and networking capability, the PC platform must be adopted. Therefore, PAC Systems (Programmable Automation Controller) with both PLC programming capabilities andPC functions is a better choice.The environmental control of the Orchid greenhouse switches on and off devices like fan, shade net, cooling/heat pump, liquid flow control, water-cooling wall etc. It is controlled by a control panel of electric controllers, and is driven by a motor, to adjust the greenhouse temperature, humidity, and other environmental conditions to the set parameters.
Case Study
Enabling Internet of Things Innovation in Agriculture
DigiBale, wanted to apply technology know-how and IP from implementations successfully to more agriculture sectors including cotton, forestry, sugarcane and cattle. However, farmers and growers still have worries about the connected technology.
Case Study
Precision beekeeping with wireless temperature monitoring
Honeybees are insects of large economic value and provide a vital service to agriculture by pollinating a variety of crops. In addition, bees provide us with valuable products such as honey, beeswax, propolis, bee venom, etc. Monitoring of honeybee colony health, population, productivity, and environmental conditions affecting the colony health have always been exceedingly difficult tasks in apiculture. Research has shown that even small deviations (by more than 2°C) from the optimal temperatures have a significant influence on the development of the brood and the health of adult bees.
