Proiecte

Satellite Communication solution for Cellular backhaul is a joint project between Nokia – Lasting Software and NEWTEC consisting of an end to end platform that will validate the satellite backhauling solution currently being developed, and which will function for 2G, 3G, 4G and soon 5G mobile networks. 

Project aims to provide a way for NOKIA's employees to shorten the duration of their commute by giving them precise information regarding the position and number of all different spots available in a given parking zone at NOKIA's site in Timisoara. The plan is to create a cross platform interface for employees to interact with, in order to get appropriate information regarding the available parking spots at a predefined location.

5G mobile demo rack aims to support a proof -of-concept of 5G E2E Nokia solution for customers service providers, joint-project with partners, educational and research programs with universities, show-off during open door event, visits, job-fairs, etc.

Proof of concept using Nokia IMPACT platform and Teraseya smart agriculture solution to monitor in real time soil and ambient quality using of sensors in large geographical areas catering for thousands of farmers, massive amounts of data can be collected from the fields, combining this information with historical data.

Our project goal is "connecting things", sensors, objects, off the shelf 3rd party systems and solutions to NOKIA IMPACT IoT services platform storing and displaying data via custom made dashboad in real time about the selected monitored parameters in our area of interest ie. Dust, CO2, Light, Noise, Humidity, Presence, Temperature, AC/DC Power consumption.

InMoov Robot it's a common project between 6 Nokia sites. All parts (except servos and microcontrollers) of InMoov are printed with 3D printers. The Robot uses an XBOX Kinect Camera to detect things. Also, with the right hand, InMoov can play Rock-Paper-Scissors.

The idea behind this design was to make a board like game of Tic-Tac-Toe, played between a human player and a robot. This board game uses a game table and play pieces instead of pencil and paper. For this, robot is capable to scan the game board to determine where the player pieces were placed and based on this, place its own pieces on the board.

The robot can navigate a simple maze (containing both low and high obstacles) and can be controlled manually from a PC or from a XBOX Controller. The robot uses 18 servos for the legs. The three Degree of Freedom leg design provides the flexibility required to walk in any direction. 

 This game test skills of two human players in driving remote controlled robots. Game consist in driving robots towards ball spread over playing field. With the help of the on-board gripper, which can be raised and lowered, players can catch a ball at a time and drive it to own base. From hardware point of view, each robot is equipped with a ESP8266 board, used for communication with player control device (phone or tablet) and also used to control on-board motors and servo.