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Narrowband Wireless Geolocator. New age of local geolocation technologies. Next generation equipment. The IoT era was came or yet not?. 1999-2004 year — idea& concept. 2008-2009 year — t he count o f internet nodes are greater th a n Earth population
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Narrowband Wireless Geolocator New age of local geolocation technologies. Next generation equipment.
The IoT era was came or yet not? 1999-2004 year— idea& concept 2008-2009year — the count of internet nodes are greater than Earth population 2012 year — first IoT devices was presented How are IoT really to have the affect for our live at the begin of 2019? How it related with modern world? What of the challenges for make IoT really useful and make it global spread?
The point for IoT growthing What the difference between the "thing" from IoT and the devices simple connected to Internet? Our answer is - the IoT "things" must be same as material things - will be determined the sizes and especially the position in spaces. This is a cause what we are solving the problem of high local precission wireless geolocation for modern multilayer building and urban infrastructure. In the era when the precise geolocation service will be presented in each wireless devices, we can: - always to know “where we are”?; - always to know “where our smart or proper assistants”, such as car at underground parking; - improve the social safety and safety for material things, for example we can't to lost the laptop or smartphone, because we will be to know where it stay and track it.
Product description We are offer complex solution for local geolocation which is narrowband – 100% compatible with international frequency plans and rules. Just now we are have two branches of product development: (Technology – Science based branch, far revenue effect) We approach the new stage in wireless technologies - self-organized systems (AD-HOC). The matter of all wireless networks is frequency band utilization and planning. Geolocation service (GS) is a real-time tool for prepare maps with subscriber distributions. Our solution is a narrowband, is a unique technics that provide compatible GS with the same band as main telecom signal. Other cases are modern rescue and emergency services, precision navigation and collision prevention for groups of drones (Equipment – market oriented branch, nearest revenue effect) Manufacturing the wearable devices and infrastructure equipment for implement local geolocation based on existing standards and proprietary solution.
The key facts for success - Market of local geolocation solutions : $ 4.5 bln AGR 37% (2016) -Our narrowband* geolocation technology is a part of next generation wireless transceiver : $ 17 bln AGR 23% (2015) * - in overview paper, proffessor from Massachusetts was wrote about narrowband class of technologies <Nobody know the solution. People are waiting for the holy grail.> https://spectrum.ieee.org/telecom/wireless/new-indoor-navigation-technologies-work-where-gps-cant
Competitors technologies – 5G & outdoor GSM/ 3G-4G-5G solutions: • OTDOA & U-TDOA (defined specification 3GPP TS 23.271) are require precise time synchronization between BTS • OTDOA & U-TDOA: BTS must complete processing excess signals from all UE which are reducing a total performance of mobile network • BLE, CELL-ID or Wireless are not quite precise • GNSS is not match for most of IoT solutions
Most effective cases UAV & aerospace: This features able to implement the “TSAC” for UAVs. TCAS is a “Traffic collision avoidance system”. This features is also to provide the controlling the movement of UAVs by straight order. Wireless & telecom: Techlology for true AD-HOC networks Emergency & safety: fast system for positioning disaster event and SOS requests. 4
Competitors technologies – IoT & indoor • BLE is unstable and approximate method with great errors. • UWB require too much frequency bandwidth. Unlike BLE ( which is a temporary solution with unstable service) we develop hardware solution which provide high precision.
Our NWG technology - quick brief New principle of multilateration – for one distance measurement is require just one BTS by directly estimation the duration of propagation. No cross-BTS calculation. (for OTDMA require 2 BTS with shared estimation time-difference). No high-precise synchronization BTS is require. Distance estimation performing by synchronization and precession signal tracking between BTS and UE.
Current producing equipment stage Q3 -2019 completion GW-A – infrastructure base station for precise local geolocation From Sep 18 was have completed first version of wearable device Jan 2019: was completed of micro LoRaWAN tracker Mar 2019: was completed tracker for heavy condition LoRaWAN+WiFi Q1..Q2 2019: Completed additional Industral IoT Devices: Prototype of 3G-vibrosensor (NbIoT oriented) IIoT vibro-sensor system https://www.youtube.com/watch?v=ba-I-3lUoLM Current goals:Plan to add the compatibility with NbIoT and LTE-M and scale the project Wireless charging Qi- support. Upstream: LoRaWAN and Wi-Fi. https://youtu.be/rig_S6iV05U https://www.youtube.com/watch?v=p2qzPeF6Trk
Invest offer & development strategy NWG We assume that our NWG core technology have a great potential and below are described main keys just only for evaluating this NWG technology. Current investment request Possibility for investor profit
Team Company was founded in may 2016, Skolkovo resident.
Contacts: “Metrica Space” LLC Maxim Grigoryev CEO& Founder https://www.linkedin.com/in/maxim-grigoryev-6a8a3092/ mgrigoryev@metrica.space Skype: m.m.grigoryev http://metrica.space https://www.facebook.com/metrica.space/ welcome@metrica.space tel: +79128979254 / ICQ: 413000813 Russian Federation, Chelyabinsk, Lenina st, 55-а, 1405