IOTY Protocol, for worldwide IoT devices
  • πŸ•ΆοΈOverview
  • πŸ’‘Introduction
    • πŸ§˜β€β™‚οΈOur vision: make accessible IoT
    • πŸš€IoT: a growth market
    • πŸ€–Problem: interoperability
    • βš™οΈHow blockchain works
      • πŸ—³οΈTrust through blockchain
      • πŸ“”Automate actions with smart contracts
    • πŸŒ€Our solution to these challenges
  • πŸ˜Άβ€πŸŒ«οΈComplex ecosystem
    • 🌐Too much diversity of technologies
    • 🚧Each network as its own standard
    • 🎊Lack of interoperability
    • β›ˆοΈCascade of isolated systems
    • 🦸Business challenges
  • πŸ›‘οΈSafety and traceability
    • πŸ’’Insecure networks
    • πŸ–²οΈIoT data difficult to track
    • *️Cyber risks
    • πŸͺŸTrust needed
  • πŸͺ…CONNECTIFY' system
    • πŸ—οΈSeamless integration into CONNECTIFY
    • β˜€οΈCONNECTIFY: a problem resolver
    • πŸͺͺOur industrialization platform
    • πŸ’»Simple interface
  • πŸ’«IOTY Protocol
    • ✨Decentralized platform
    • ✍️Message signature
    • 🫧Encrypted storage
  • πŸ”…IOTY Network
    • πŸ“±App IOTY
    • πŸ“²SDK
    • β›³Wifi Geoloc
  • πŸ’ŽUse cases
    • πŸ’ Industry 4.0
    • 🧬Healthcare
    • 🏠Smart home
    • πŸ›΅Mobility
    • πŸ™οΈSmart cities
  • 🌽Grant Program
  • πŸ’²Tokenomics $IOTY
    • β›²Token Metrics
    • πŸ¦‹Overview of the $IOTY
    • πŸ–οΈMinting Mechanism
    • ❇️Use of Proceeds
    • 🐳Utilities
  • 🎯Roadmap and go to market
    • 🧩Milestones
    • πŸ‘¨β€πŸ’ΌTechnological and partnerships
    • πŸ’ΈFund-raising
    • πŸ›’long-term roadmap
    • πŸ‘₯KPI objectives
  • 🏁To conclude
  • 🏒Compagny
    • πŸ‘¨β€πŸ‘©β€πŸ‘§β€πŸ‘¦Team
    • πŸŽͺMedia kit
    • βš–οΈDisclaimer
    • πŸ’₯Risks
Powered by GitBook
On this page
  1. IOTY Network

Wifi Geoloc

Thanks to the contributor and the SDK embedded in partner apps, we've built up a huge database of Wi-Fi MAC addresses associated with their location, completely anonymously of course!

Our Wi-Fi hotspot-based geolocation service uses the MAC (Media Access Control) addresses of the Wi-Fi access points in our database to determine a device's geographical position. When a device (such as a smart device) has a Wi-Fi scan function, it can scan and detect signals from surrounding Wi-Fi networks. Each Wi-Fi access point emits a signal containing a unique MAC address. The geolocation service collects these MAC addresses and compares them with our database, which associates each MAC address with specific geographic coordinates. By comparing the detected MAC addresses with the data in the database, the service can triangulate the exact position of the device with variable accuracy, often sufficient for common uses such as indoor navigation, shopping mall location services, or position-based recommendations. This process is effective even in the absence of GPS signals, making geolocation possible inside buildings where GPS may be unreliable.

PreviousSDKNextUse cases

Last updated 10 months ago

πŸ”…
β›³