Experiences Deploying an Always-on Farm Network

Author:

Kapetanovic Zerina1,Vasisht Deepak2,Won Jongho3,Chandra Ranveer4,Kimball Mark5

Affiliation:

1. University of Washington

2. MIT

3. Purdue University

4. Microsoft

5. Essex Farm

Abstract

Data-driven techniques for agriculture can help farmers reduce waste, increase farm output and ensure sustainability for the environment. The key enabler for such techniques is an always-on connected IoT system that can sense the different characteristics of the farm and generate short-term and long-term actionable insights for the farmer. Yet building such a system is very challenging due to sparse Internet connectivity and lack of reliable power sources. This is further exacerbated by weather variability that stresses the system in numerous ways. We discuss how we built and deployed Farmbeats [6] in the face of these challenges. We hope our experiences will aid researchers who are beginning to explore deployments in farming or other weakly connected, power-starved scenarios, such as construction, oil fields, mining, and others.

Publisher

Association for Computing Machinery (ACM)

Reference6 articles.

1. Wibotic: http://www.wibotic.com/. Wibotic: http://www.wibotic.com/.

2. Opportunistic use of client repeaters to improve performance of WLANs

3. J. Lowenberg-DeBoer. The precision agriculture revolution: Making the modern farmer. https://www.foreignaffairs.com/articles/unitedstates/2015-04-20/precision-agriculture-revolution. J. Lowenberg-DeBoer. The precision agriculture revolution: Making the modern farmer. https://www.foreignaffairs.com/articles/unitedstates/2015-04-20/precision-agriculture-revolution.

4. United Nations General Assembly. Food production must double by 2050 to meet demand from worlds growing population innovative strategies needed to combat hunger experts tell second committee 2009. United Nations General Assembly. Food production must double by 2050 to meet demand from worlds growing population innovative strategies needed to combat hunger experts tell second committee 2009.

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