MIoTy

From HandWiki
Short description: Type of wireless telecommunication wide area network

mioty is a low-power wide-area network (LPWAN) protocol. It is using telegram splitting, a standardized LPWAN technology in the license-free spectrum. This technology splits a data telegram into multiple sub packets and sends them after applying error correcting codes, in a partly predefined time and frequency pattern. This makes a transmission robust to interferences and packet collisions.[1] It is standardised in the TS 103 357 ETSI.[2] Its uplink operates at the 868 MHz band, license free in Europe, and 916MHz band in North America. It requires a bandwidth of 200 kHz for two channels (e.g. up- and downlink).[3]


Technology attributes

  • Long range: The operating range of LPWAN technology varies from a few kilometers in urban areas to over 10 km in rural settings. It can also enable effective data communication in previously infeasible indoor and underground locations.[4][5]
  • Low power: Optimized for power consumption, LPWAN transceivers can run on small, inexpensive batteries for up to 20 years.
  • Telegram splitting: (or TSMA, telegram splitting multiple access) Splits the packets of data under transport in small sub-packets at the sensor level. The small packets getting then transmitted over variable frequency and time.[6][7]
  • More than a million packets a day. [8]
  • Serving moving clients. It can serve data from clients moving at up to 120 km/h.[9]

Applications

It is intended to be used for monitoring devices in large areas.[10]

See also

  • Internet of Things

References

  1. "mioty technology". https://mioty-alliance.com/miotytechnology/. 
  2. "Technical specs". https://www.etsi.org/deliver/etsi_ts/103300_103399/103357/01.01.01_60/ts_103357v010101p.pdf. 
  3. Nolan, Keith; Kelly, Mark (28 April 2018). "IPv6 Convergence for IoT Cyber–Physical Systems". Information 9 (4): 70. doi:10.3390/info9040070. 
  4. "StackPath". https://www.electronicdesign.com/industrial-automation/article/21127244/long-range-and-low-power-now-reign-in-iiot. 
  5. "Radiocrafts Releases the World's First Shielded Mioty Module for Massive IoT Deployments!". 2 July 2020. https://radiocrafts.com/radiocrafts-releases-the-worlds-first-shielded-mioty-module-for-massive-iot-deployments/. 
  6. "Espacenet – search results". https://worldwide.espacenet.com/patent/search/family/055587096/publication/WO2017157949A1?q=pn%3DWO2017157949A1. 
  7. "Termindatenbank". https://electronica.de/de/rahmenprogramm/information/veranstaltungskalender/index.php/mmg/eventdatabase/de/detail/23337/ELE2020A?type=eventdatabase. 
  8. "Radiocrafts Releases the World's First Shielded Mioty Module for Massive IoT Deployments!". 2 July 2020. https://radiocrafts.com/radiocrafts-releases-the-worlds-first-shielded-mioty-module-for-massive-iot-deployments/. 
  9. "How data from smart buildings supports health and wellbeing -". 30 November 2020. https://transformindustry.com/sensors/how-data-from-smart-buildings-supports-health-and-wellbeing/. 
  10. "mioty® – The Wireless IoT Platform". https://www.iis.fraunhofer.de/en/ff/lv/net/telemetrie.html. 



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