Australian AgTech A Commentary on the Report of the Agri-Tech Expert Working Group June 2021
Main Article Content
Keywords
Agriculture, AgTech, Connectivity, policy, Australia
Abstract
The government AgriTech Expert Working Group has provided a detailed overview of the practical challenges domestic Australian farmers have to deal with when digitising their farms through the implementation of connected sensor technologies, motivated by the predicted growth of the sector to AUD 100 billion by 2030. In addressing these issues, of which connectivity and access to wireless technologies along with unreliable sensor performances over time remain prominent, domestic regional specific solutions are sought. A key solution being relied upon are low earth orbital satellites, perhaps the only communication infrastructure that cycles over territorial boundaries and has both regulatory and technical challenges that are not widely considered. The resilience of these solutions is assessed in the context of the agricultural technology, or AgTech, market which is arguably invented and shaped by broader, global interests mostly centred where end-user populations are based. The argument is made that government policy must include the latter within a larger holistic framework, including education, when assessing the future of both agriculture and AgTech markets in Australia. At the core, the AgTech report does highlight some challenges in Australia’s wider research approach.
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References
Agricultural technology (Agtech) market value worldwide from 2020 to 2025, by region (in million U.S. dollars). (2021). https://www.statista.com/statistics/1222535/worldwide-agricultural-technology-market-value-by-region/
ABAC [Australian Broadband Advisory Council]. (2021). Agri-Tech Expert Working Group report. https://www.infrastructure.gov.au/department/media/publications/agri-tech-expert-working-group-june-2021
Australian Landing Pads, https://www.austrade.gov.au/landingpads
Bao, X., Zhou, Z., & Wang, Y. (2021). Review: distributed time-domain sensors based on Brillouin scattering and FWM enhanced SBS for temperature, strain and acoustic wave detection. PhotoniX, 2, 14. https://doi.org/10.1186/s43074-021-00038-w
Boley, A. C., & Byers, M. (2021). Satellite mega-constellations create risks in Low Earth Orbit, the atmosphere and on Earth. Scientific Reports, 11, 10642. https://www.nature.com/articles/s41598-021-89909-7
Brodzeli, Z. (2021). PhoenixZ. https://www.phoenix-z.com/
Cacciapuoti, A. S., Caleffi, M., Van Meter, R., & Hanzo, L. (2020). When Entanglement Meets Classical Communications: Quantum Teleportation for the Quantum Internet, IEEE Transactions on Communications, 68(6), 3808–3833. https://doi.org/10.1109/TCOMM.2020.2978071
Canning, J. (2020a). A Review of the recent “Photonics in Australia and NZ: Lighting Economic Growth” report. https://www.linkedin.com/pulse/review-recent-photonics-australia-nz-lighting-economic-john-canning/
Canning, J. (2020b). 3D Printing and Photonics, 4th International Conference on Emerging Advanced Nanomaterials (ICEAN). Keynote, Newcastle University, Australia. https://www.newcastle.edu.au/research/centre/gican/icean-2020/keynote-lectures
Carrington, D. (2020). No-kill, lab-grown meat to go on sale for first time. The Guardian, 2 December 2020. https://www.theguardian.com/environment/2020/dec/02/no-kill-lab-grown-meat-to-go-on-sale-for-first-time
Ciaramella, E., Cossu, G., Ertunc, E., Gilli, L., Messa, A., Presi, M., Rannello, M., Bresciani, F., Basso, V., Dell’Orso, R., & Palla, F. (2020). Prospects of Visible Light Communications in Satellites, 22nd International Conference on Transparent Optical Networks (ICTON), 1-4. https://doi.org/10.1109/ICTON51198.2020.9203541
Department of Agriculture, Water and the Environment. (2022). Delivering Ag2030. https://www.awe.gov.au/agriculture-land/farm-food-drought/ag2030
Ferraz, P. A. P., & Santos, I. S. (2015). Visible Light Communication Applied on Vehicle-to-Vehicle Networks. International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE), 231-235. https://doi.org/10.1109/ICMEAE.2015.32
Fewkes, S. (2021). LoRaWAN® Formally Recognized as ITU International Standard for Low Power Wide Area Networking. https://lora-alliance.org/lora-alliance-press-release/lorawan-formally-recognized-as-itu-international-standard-for-low-power-wide-area-networking/
FiberSense Pty Ltd. https://fiber-sense.com/
Food Agility Cooperative Research Centre. https://www.foodagility.com/
Garcia, M. (2021). Space debris and human spacecraft. https://www.nasa.gov/mission_pages/station/news/orbital_debris.html
George, E. (2019). Lab-Grown Meat: The Future of Food and Natural Resources Management. Houston Journal of Health Law & Policy, 19, 105. https://www.law.uh.edu/hjhlp/volumes/Vol_19/4%20-%20Elizabeth%20George%20(pp%20105-133).pdf
Granath, B. (2015). Light technology being developed for advanced communications. NASA Spacetech. https://www.nasa.gov/feature/light-technology-being-developed-for-advanced-communications
Henshall, A. (2021). Can we stomach the latest emerging food innovations? BBC News. https://www.bbc.com/news/business-59044820?goal=0_8e101ace96-08a897181a-99669025
ITU-T. (2019). Optical fibers, cables and systems, ITU-T Manual. https://www.itu.int/dms_pub/itu-t/opb/hdb/T-HDB-OUT.10-2009-1-PDF-E.pdf
Jackson, M. (2014). WiFi and Satellite Equipped Tractors to Follow Yorkshire’s Tour de France. ISPreview. https://www.ispreview.co.uk/index.php/2014/06/wifi-equipped-tractors-line-yorkshires-tour-de-france-route.html
Klaina, H., Picallo Guembe, I. P., Lopez-Iturri, P., Campo-Bescós, M. A., Azpilicueta, L., Aghzout, O., Alejos, A. V., & Falcone, F. (2022). Analysis of low power wide area network wireless technologies in smart agriculture for large-scale farm monitoring and tractor communications, Measurement, 187, 110231. https://doi.org/10.1016/j.measurement.2021.110231.
Lea, G. (2021). IGS achieves £42 million Series B fundraise with announcement at COP 26. https://www.intelligentgrowthsolutions.com/news/igs-achieves-ps42-million-series-b-fundraise-with-announcement-at-cop-26
Lean, I. J., Golder, H. M., Grant, T. M. D., & Moate, P. J. (2021). A meta-analysis of effects of dietary seaweed on beef and dairy cattle performance and methane yield, PLoS ONE, 16(7), e0249053. https://doi.org/10.1371/journal.pone.0249053
LiFi: Wireless data from every light bulb. https://lifi.co/
Marek, S. (2021). John Deer wants to help feed the world using 5G, cloud computing. https://www.lightreading.com/aiautomation/john-deere-wants-to-help-feed-world-using-5g-cloud-computing/d/d-id/766884
Nazaretyan, A. (2020). The Twenty-First Century’s “Mysterious Singularity” in the Light of the Big History. In: Korotayev A., LePoire D. (eds) The 21st Century Singularity and Global Futures. World-Systems Evolution and Global Futures. Springer, Cham. https://doi.org/10.1007/978-3-030-33730-8_15
Oberst, S., Lai, J., Chen, L., Halkon, B., Canning, J., Li, J., Brodzeli, Z., Atkinson, T., & Amos, A. (2021–2025). A sentinel network for vibration-based termite control, Australian Research Council (ARC) Linkage, LP200301196.
Orbitfab. https://www.orbitfab.com/
Powertec. (2022). Agriculture Wireless Connectivity Solutions: Mobile Repeaters for Tractors and Harvesters https://powertec.com.au/solutions/agriculture-wireless-connectivity-solutions/
Price, S. L., Kasevich, R. S., Johnson, M. A., Wiberg, D., & Marley, M. C. (1999). Radio frequency heating for soil remediation. Journal of the Air & Waste Management Association. 49(2), 136–145. https://doi.org/10.1080/10473289.1999.10463796
Queensland Government Department of Agriculture and Fisheries. (n.d.). AgTech. https://www.daf.qld.gov.au/__data/assets/pdf_file/0009/1556469/what-is-agtech.pdf
RIO. (2021). Laser solutions for industry and science. Luna Innovations. https://rio-lasers.com/
SigFox. (n.d.). SigFox: the 0G network. https://www.sigfox.com/en
Taggle. (2019). Taggle Systems. https://taggle.com/
Tangermann, V. (2021). California Factory Producing 50,000 lbs of lab grown meat per year. The Byte. https://futurism.com/the-byte/california-factory-lab-grown-meat
Tudehope, M., (2021). Breakthrough tech to provide farm-wide wi-fi. evoke. https://evokeag.com/breakthrough-tech-to-provide-farm-wide-wi-fi/
Vijn, S., Compart, D. P., Dutta, N., Foukis, A., Hess, M., Hristo, v A. N., Kalscheur, K. F., Kebreab, E., Nuzhdin, S. C., Price, N. N., Sun, Y., Tricarico, J. M., Turzillo, A., Weisbjerg, M. R., Yarish, C., & Kurt, T. D. (2020). Key considerations for the use of seaweed to reduce enteric methane emissions from cattle. Frontiers in Veterinary Science, 7, 1135. https://doi.org/10.3389/fvets.2020.597430
Woodward, M. (2021). ‘The time is now’: Key insights from Elders CEO Mark Allison. evoke. https://evokeag.com/the-time-is-now-key-insights-from-elders-ceo-mark-allison/