Role of Cloud Computing Technology in Agriculture Fields

Use of Cloud computing technology in agricultural areas has greater chance in the overall development of India. An effective implementation of cloud computing is encouraging in agricultural sector. Cloud Computing is emerging today as a commercial infrastructure that eliminates the need for maintaining expensive computing hardware, software, Information technology, staff, infrastructure, recourses and their maintenance. Cloud computing is a network-based environment that focuses on sharing computations, Cloud computing networks access to a shared pool of configurable networks, servers, storage, service, applications & other important computing resources. In modern era of cloud computing technology very helpful for centralized the all-agricultural related data bank (Soil-related, weather, Research, Crop, Farmers, Agriculture marketing, fertilizers and pesticide information) in the cloud.  In this paper, also discuss Computing model, characteristics, deployment model, cloud service model, cloud benefits and challenge of cloud computing in agriculture field. Keywords: Cloud computing, Community model, Hybrid model, Public model, Private model, Agriculture, IaaS, Paas & Saa

The Economic Value of Remote Sensing of Earth Resources from Space: An ERTS Overview and the Value of Continuity of Service. Volume 1: Summary

An overview of the ERTS program is given to determine the magnitude of the benefits that can be reasonably expected to flow from an Earth Resources Survey (ERS) Program, and to assess the benefits foregone in the event of a one or two-year gap in ERS services. An independent evaluation of the benefits attributable to ERS-derived information in key application areas is presented. These include two case studies in agriculture-distribution, production and import/export, and one study in water management. The cost-effectiveness of satellites in an ERS system is studied by means of a land cover case study. The annual benefits achieveable from an ERS system are measured by the in-depth case studies to be in the range of $430 to$746 million. Benefits foregone in the event of a one-year gap in ERS service are estimated to be $147 to$220 million and $274 to$420 million for a two-year gap in ERS service

Climalptour

Podnebje in turizem sta običajno tesno povezana. Smučanje brez snega in nizkih temperatur ni možno, če omenimo samo najbolj neposredno povezavo. Zaradi tega je bilo v zadnjih letih opravljenih veliko raziskav o vplivu podnebnih sprememb na turizem v gorskih območjih. In o tem govori knjiga ClimAlpTour. Podnebne spremembe in njihov vpliv na turizem v Alpah, ki je nastala v projektu z istim imenom iz programa Evropskega teritorialnega sodelovanja, Alpski prostor, ter izšla v slovenskem, angleškem, italijanskem, nemškem in francoskem jeziku. Ponuja širok spekter vsebin: od pričakovanih učinkov dvigovanja temperature na turizem, vpliva teh sprememb na razvoj Alp do rešitev oziroma prilagoditvenih strategij. Glavnina knjige obravnava konkretna območja oziroma turistična središča (v celoti 22, slovenski sta dve: Zgornje Posočje in Kranjska Gora) tako s prevladujočim zimskim kot tudi poletnim in celoletnim turizmom: njihove temeljne značilnosti, izzive in priložnosti ter prilagoditvene strategije. Knjiga se sklene s priporočili in smernicami za turistično industrijo in nosilci odločitev

Development and Application of Operational Techniques for the Inventory and Monitoring of Resources and Uses for the Texas Coastal Zone

There are no author-identified significant results in this report

Ag-IoT for crop and environment monitoring: Past, present, and future

CONTEXT: Automated monitoring of the soil-plant-atmospheric continuum at a high spatiotemporal resolution is a key to transform the labor-intensive, experience-based decision making to an automatic, data-driven approach in agricultural production. Growers could make better management decisions by leveraging the real-time field data while researchers could utilize these data to answer key scientific questions. Traditionally, data collection in agricultural fields, which largely relies on human labor, can only generate limited numbers of data points with low resolution and accuracy. During the last two decades, crop monitoring has drastically evolved with the advancement of modern sensing technologies. Most importantly, the introduction of IoT (Internet of Things) into crop, soil, and microclimate sensing has transformed crop monitoring into a quantitative and data-driven work from a qualitative and experience-based task. OBJECTIVE: Ag-IoT systems enable a data pipeline for modern agriculture that includes data collection, transmission, storage, visualization, analysis, and decision-making. This review serves as a technical guide for Ag-IoT system design and development for crop, soil, and microclimate monitoring. METHODS: It highlighted Ag-IoT platforms presented in 115 academic publications between 2011 and 2021 worldwide. These publications were analyzed based on the types of sensors and actuators used, main control boards, types of farming, crops observed, communication technologies and protocols, power supplies, and energy storage used in Ag-IoT platforms