#2020: IIDRE introduces itself on video!

The entire IIDRE team wishes you a happy new year!!!

It is the opportunity to present ourselves on a video: https://youtu.be/nqISH6gyyPY

See you soon to support you in your projects!

IIDRE and CPK Consult at Viv Industry on 26 and 27 November!

@IIDRE and @CPK Consult are present on the Viv Industry exhibition; exhibition dedicated to the Factory of the Future and Industrial Performances in Nouvelle Aquitaine!

Come and visit us to talk about your geolocation issues and we will provide you hardware and software solutions.

Apple iPhone 11 and UWB

The iPhone 11 with its UWB chip creates a lot of discussion this month. This choice is very relevant and has been brain for a long time! But few applications and solutions are ready at this moment, so it’s not a buzz yet!

Who can announce now day his compatibility with the iPhone 11 UWB? First of all, we will have to test and validate the APIs for a real trilateration exchange with Apple.

In any case, it is a great boost for this technology that we chose for the last 3 years (avec Decawave) for its intrinsic qualities and its standardization. We are now waiting for other announcements from the telecom manufacturers and of course the decisions among the major accounts. The year 2020 will be rich in distance calculation and geolocation, we are grateful for being in this situation!

ESA IIDRE UWB Indoor Geolocation

IIDRE Pitch about UWB Indoor Geolocation solution for Drones, AGV, robots and Autonomous vehicles thanks to ESA Bic Sud France network

We provide now from 10 to 30 cm accuracy, data rate around 50 measures per second, a simple infrastructure to deploy to track a mobile in real time.



IIDRE and ISFM, partners for the project “Rouen Normandy autonomous Lab”- autonomous vehicles

IIDRE and ISFM, actors respectively of geolocation with or without satellite coverage and mobility, are partners to support the experimental project of Rouen, within the framework of the launch of the first autonomous “Zoe” electric, in an urban environment, by ensuring a fluidity in the continuity of services for driving without a driver. # mobility, #autonomous vehicles, #innovation.


IIDRE and the french engineering school ENSEIRB-MATMECA

IIDRE assists students of the french enrgineering school, ENSEIRB-MATMECA on the project “WISER” (Wireless Interconnection for Secure Exchange on the Road for the self-driving car). This project consists in creating RoadSide Unit (RSU), to manage autonomous vehicles.

From design to tests, third-year students of ENSEIRB-MATMECA, from telecom sector, work on complete technology architecture “Vehicle To Infrastructure” – V2I.

IIDRE, accurate geolocation with UWB

Thanks to continuous efforts made since 2016, IIDRE is now able to offer an accurate geolocation by means of UWB technology (Ultra Wideband Decawave modules). The solution is based on geo referenced anchors and tags, which will be integrated to your products (machines, tools, vehicles, others…), according to your needs and whatever your industry.

Accurate geolocation: 

Our solution ensures an accurate localization which is about 10 cm in clear environment (LOS: Line-Of-Sight), while remaining lower than a meter in dense or industrial ones (NLOS: Non Line-Of-Sight).

Follow-up of fast moves: 

Besides a great accuracy, our system offers  calculated positions with high data rate (trilateration), guaranteeing you to follow-up fast moves (> 30 km/h).

Customization of our solution:

Furthermore, IIDRE allows to custom anchors and mobile tags, by integrating several types of sensors (gas, temperature, particle density, …) and even a GPS chip to guarantee an outdoor cover (switch indoor/outdoor).

Contact us to be helped with your project : https://iidre.com/IIDRE/en/contact-form/

IIDRE won the H2020 project – SME Instrument

“The ability to quickly locate people on sensitive industrial sites”


Based on its leading-edge know-how in the field of indoor and outdoor geolocalisation, IIDRE developed a unique solution contributing to ensure individuals’ safety in specific environments while considering the constraints of these environments.

The innovative solution is based on RF protocol, tags (smart electronic devices) and a scalable infrastructure composed by telecommunication part and computation algorithms


This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 762383


Futurapolis Exhibition in Toulouse



November 2016

It was again a pleasure to show indoor geoloc systems on the CNES stand at Futurapolis exhibition in Toulouse, with many discussions between professionals and scheduled conferences. We offer a part of the connection between the space and the indoor geolocation.



Bordeaux INP


Stagiaires ENSEIRB MATMECA 2016

Summer 2016

This summer we integrated students in internship from ENSEIRB / MATMECA Bordeaux University.

Everyone worked on a specific topic:

 Imène – end of studies traineeship :

« Positioning has an essential role on everyday life. Nowadays, when the object to be tracked is

in an open environment, the GPS is considered as the most efficient. But, its application is
limited in indoor environment such as basements, hangars… The “Indoor” positioning system
of Iidre Company uses the ZigBee technology. It consists of wireless sensors network
composed by transmitters, receivers and a coordinator connected to a computer which
retrieves and processes the information. This device works using the power of the received
signal by the receiver so-called RSSI. Then, the distance between the transmitter and the
receiver is estimated in function of the RSSI. Finally, by using the trilateration principle the
estimated location is obtained.

However, interferences and multi-paths related to the environment affect seriously the system accuracy. The establishment of a particle filter, as well as, a discretization of the state space are techniques to improve the positioning result.”


ENSEIRB students’ training projets:

Guillaume :

« The purpose of my internship is to make geo-tracking (ou alors geolocation, je ne sais pas quel terme est le mieux) using LoRa technology. When a transmitter sends a message to a gateway (both equiped with a LoRa module), the RSSI (Received Signal Strength Indication) is calculated and a distance can be estimated. The ultimate goal is to make a multi-emitter and multi-gateway system.”


Abdoul :

«The objective of my project is to design and develop an usable web User Interface (UI) to ensure the tracking in real time of equipments in a worksite”


Julien :

“I work on a efficient, citizen and connected air quality station using USB, WIFI and LoRa technologies.”