Info Design And Its Enormous Benefits
Agri Info Design is a six-day intensive accelerator programme for up-and-coming social enterprises in different regions of the globe, the better to enable them swiftly and effectively address the SDGs in agriculture. Future Farming takes a closer look at some of today’s advanced GPS guidance systems available. These instruments are designed to provide higher accuracy and reduced costs of measurement. These instruments, which include GPS receivers and data collectors, are used to monitor the health of farms, plantations and ranches. The instruments use different technologies, including the Wireless Aerial Remote Sensing (WAAS), which can locate individual crops and assess plant health with a high level of precision.
Some of these sensors are also fitted on aerial vehicles for a more precise assessment. This helps reduce the costs and wastage of resources, as well as evaluating the productivity of workers on the field. The WAN/ Wireless Access Providers’ market has witnessed phenomenal growth in recent years, due to the continued growth of the mobile communication sector. The growth of this sector requires data to be transmitted at higher speeds, using compact devices and sensors that can sense and transmit data at higher resolution. It is for this reason that the industry is rapidly turning to GPS for collecting data and assessment.
The advantages of using this technology in precision agricultural equipment and measurement devices are many. These devices help in reducing labour costs and improve efficiency by enabling assessment of specific sites, over long distances. They are used in precision agriculture to locate fields or even individual crops within a field, which could save a lot of time and money. The accuracy level of such sensors, when operated in conjunction with modern CAD/CAM software, is extremely high, and they have now become one of the most sought after systems in the precision market.
Another advantage of using sensors for precision design purposes is that they reduce labour costs and improve production productivity. Many new CAD packages come out with support for high resolution sensing of soil moisture, which allows the calculation of soil moisture states and water storage. This helps in determining the moisture content in the soil, which is required for seed planting, and thus lowers the cost of seedling and development. With these inputs, precision is further ensured for farmers, and the yields are higher.
Info design can also be refined with data coming from GPS and other hi-tech devices. For example, the US National Forest Service has started the Appalachian Greenlining project, which helps in the mapping and research ofebra woodlands and their connectivity to streams, rivers and lakes. In the process, valuable data is accumulated, which would otherwise have been overlooked. This way, the knowledge of habitats and ecosystems is maintained and enhanced for future generations. Another advantage is that it helps in evaluating the impact of regulations, where regulations differ among different states or countries. By using this data, infrastructures are designed that minimize environmental impact.
With data and information come from many sources, there are problems of distortion due to multi-frequency noise. This can be eliminated by using a repeating pattern or cycle, which helps in reducing noise. Information technology departments at various companies are working on this, to help create digital information and visual displays that eliminate the distortion. Hence, as one can see, it is not only big businesses that require info design but also small-scale industries that require infrastructures that provide reliable and repeatable data and information. In a nutshell, infrastructures and design can go hand in hand to provide reliable, accurate, and effective services.