Deployment of a LoRa-WAN near-real-time precision ranching system on extensive desert rangelands: What we have learned*

IF 1.4 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Matthew M. McIntosh , Andres F. Cibils , Shelemia Nyamuryekung’e , Richard E. Estell , Andrew Cox , Danielle Duni , Qixu Gong , Tony Waterhouse , John Holland , Huiping Cao , Laura Boucheron , Huiying Chen , Sheri Spiegal , Glenn Duff , Santiago A. Utsumi
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引用次数: 1

Abstract

Objective

Precision livestock farming technologies show great promise for the management of extensive, arid rangelands, but more practical knowledge is needed to allow ranchers to determine potential applications and limitations for adoption. We tested a long-range wide area network (LoRa-WAN) precision livestock system over 3 mo (April–June 2020) in a ranch in southwest New Mex- ico, USA. The system monitors cattle position and move- ments, precipitation, and water trough water levels at pas- ture and ranch scales, in real time.

Materials and Methods

Here we describe the com- ponents of the system and share what we have learned from our preliminary experiences. This system included a solar-power LoRa-WAN receiving station with the cor- responding gateway, radio frequency antenna (824–894 MHz), and Wi-Fi bridge for data transmission into the Internet. The testbed network for testing LoRa-WAN sen- sors included 43 GPS-trackers deployed on lactating beef cows and 2 environmental sensors used to monitor precipi- tation regimens and trough water levels, respectively.

Results and Discussion

The system collected data consistently for the trough levels and precipitation, where- as data from the cow GPS-trackers was highly heteroge- neous. On average, 46 ± 4% of daily data packets logged by GPS-trackers were successfully transmitted through the LoRa-WAN system, exceeding 80% of successful trans- mission in several cases. This report documents the neces- sary infrastructure, performance, and maintenance of sys- tem components, which could be of significant information value to ranchers and researchers with a desire to deploy similar monitoring systems.

Implications and Applications

This Technical Note documents the implemetation of a LoRa-WAN monitoring system at the ranch scale for a 3-mo period. The system has allowed the ranch manager and assisting staff to ef- ficiently manage cattle inventories and promptly address animal welfare concerns. However, further research is re- quired to assess the scalability of this system across com- mercial operating cattle ranches in the Southwest United States, thereby unlocking its potential for broader adop- tion and effect.

在广阔的沙漠牧场部署LoRa-WAN近实时精确牧场系统:我们所学到的*
精确畜牧技术在管理广阔干旱的牧场方面显示出巨大的前景,但还需要更多的实用知识,让牧场主能够确定潜在的应用和采用的局限性。我们在3个月(2020年4月至6月)内在美国新墨西哥州西南部的一个牧场测试了一个远程广域网(LoRa WAN)精确牲畜系统。该系统实时监测牧场和牧场规模的牛的位置和移动、降水和水槽水位。材料和方法在这里,我们描述了该系统的组成部分,并分享了我们从初步经验中学到的东西。该系统包括一个太阳能LoRa广域网接收站,带有响应网关、射频天线(824–894 MHz)和用于将数据传输到互联网的Wi-Fi桥。用于测试LoRa WAN传感器的试验台网络包括部署在泌乳肉牛上的43个GPS跟踪器和分别用于监测沉淀方案和槽水位的2个环境传感器。结果和讨论该系统一致地收集了槽水位和降水量的数据,其中来自奶牛GPS跟踪器的数据具有高度的异质性。平均而言,GPS跟踪器记录的每日数据包中有46±4%通过LoRa WAN系统成功传输,在某些情况下超过了成功传输的80%。本报告记录了系统组件的必要基础设施、性能和维护,这对希望部署类似监控系统的牧场主和研究人员来说可能具有重要的信息价值。含义和应用本技术说明记录了牧场规模的LoRa广域网监控系统的实施情况,为期3个月。该系统使牧场经理和辅助人员能够有效地管理牲畜库存,并及时解决动物福利问题。然而,还需要进一步的研究来评估该系统在美国西南部商业经营牧场的可扩展性,从而释放其更广泛应用和效果的潜力。
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来源期刊
Applied Animal Science
Applied Animal Science AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
3.00
自引率
6.70%
发文量
68
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