Fraunhofer Institute for Integrated Circuits IIS
Fraunhofer Institute for Integrated Circuits IIS
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Specific Localization Solutions

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Applications | Projects

At a glance

There is an appropriate localization solution for every application. With offering a wide range of localization technologies we can meet every customer's need.

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SAFIR

System capable of multiple configurations for detecting and characterizing jammers.

SAFIR

BaSE

Robust E1/E6 Galileo PRS receiver with integrated security module.

BaSE

Diracu

Rapid and direct Galileo PRS acquisition module.

DIRACU

PRSauth

Authentification of messages and information with Galileo PRS.

PRSauth

GUARDIAN

Independent, cost-effective and miniaturized Galileo PRS receiver technology.

Guardian

HALI

Free passage for emergency vehicles with Galileo PRS.

HALI

P3RS

Developing pre-operational Galileo PRS-Receiver.

P3RS

GOOSE

GNSS Receivers with open Software Interface.

GOOSE

Bertrandt

Precise satellite-based positionin for swarm data and autonomous driving.

Bertrandt

PRoPART

Precise and Robust Positioning for Automated Road Transports

PRoPART

Galileo Online

Development of receivers for rail applications

Galilieo Online

ASPHALT

Control of asphalt paving machinery

Asphalt

ENTRAS

Modular, energy-autonomous tracking system using satellite-based navigation with localization in wireless sensor networks.

ENTRAS

RART

Design, development and integration of a Range Authentication Receiver Testbed (RART) using a GOOSE© receiver platform.

RART

FlexLoc

Flexible localization solution for automated production and logistics processes.

FlexLoc

RedFIR®

Innovative radio-based location technology that locates people and objects in real time with high accuracy.

RedFir

ORAT

Wireless-based positioning architecture that also functions reliably in a challenging production environment

ORAT – Tracking in Automation

LocON

Automatic access control at airports

LOCON

SECAIR

Combination of wireless localization and video technologies for monitoring vehicles, objects or people to improve airport security

SECAIR

Ko-TAG

For the protection of vulnerable road users by means of wireless technology

KO-TAG

EasyPilot

Efficient picking with JUNGHEINRICH’s easyPILOT Follow: Thanks to the precise positioning developed by Fraunhofer IIS, the picking vehicle automatically follows people and simplifies workflows during loading and unloading.

Easy Pilot Follow

RIS4NGWB

RIS4NGWB deals with the promotion of test infrastructures and studies in the 5G/6G backbone area. The aim is to demonstrate the enhancement of security and resilience in wireless backhaul. 

RIS4NGWB

5G: saving lifes

The possibilities of 5G mobile technology are being tested in order to further improve the rescue chain.

5G: saving lives

Smart Construction

In the Smart Construction project, 5G applications for the digitization of construction processes are being tested on a real construction site.

Smart Construction

Boundless 5G

The project Grenzlos5G@BYBW is testing concrete applications for 5G in logistics under real conditions.

More Information

5G med4PAN

The med4PAN project is researching and testing the possibilities of using innovative technologies to improve medical care in rural regions.

5G med4PAN

5GILABB

At the 5G Industrial Laboratory Bischheim (5G ILABB), use cases in train maintenance, monitoring and quality control are being optimised with the help of 5G.

5GILABB

5G OPERA

The project aims to establish a Franco-German ecosystem for private 5G networks. The goal is to ensure that individual components such as radio units, distributed units and centralised units from different manufacturers can operate together and be combined.

5G OPERA

RedFIR®

RedFIR® stands for an innovative radio-based location technology that locates people and objects in real time with high accuracy.

RedFir

IndLoc® for material detection

The intelligent object and fill-level monitoring functionality can detect various metallic objects, accurately telling them apart without the need for visual contact. In addition, it can display the fill level of individual containers and distinguish electronic components from one another.   

Material Detection

IndLoc® – GoalRef goal-line technology

GoalRef goal-line technology detects exactly when a soccer ball completely crosses the goal line and the goal is valid. In this use case, the soccer ball is equipped with a passive coil that enables precise localization of the ball. The data is evaluated in fractions of a second and sent to the referee’s watch.

GoalRef

IndLoc® for 3D positioning

Inductive near-field positioning enables the precise position of various objects to be determined in three dimensions. For this purpose, objects or people are equipped with passive coils (e.g. in the form of bracelets – known as wearables) to track their movements.

3D-Ortung

IndLoc® for area monitoring

Area monitoring makes it possible to selectively detect the crossing of boundaries. By establishing a geofence, specific areas can thus be demarcated and controlled, providing effective protection for employees and objects.

Area Monitoring

Museum and Fairs

Multimedia guides with awiloc® positioning give museum visits a new quality. They offer visitors additional content exactly where they want it - in the right location, multi-layered and convenient.

awiloc in Museum

IMS

Testing of new strategies and technologies for linking the transportation system and energy supply as well as for navigation in buildings.

IMS

Positioning in Car Parks

For conventional navigation systems, it's usually over by the time they enter the parking garage. The GPS signals cannot penetrate the concrete ceilings or scatter too much. 

Positioning in Car Parks

Locadis®

Precise positioning for IoT-networks.

locadis

ways4me

ways4me combines indoor and outdoor navigation with real-time traffic information retrieval and communication with public transport.

ways4me

Mobile Walk

GPS-independent localization in the cities of Erlangen, Nuremberg and Fürth. 

City guide »Mobile Walk«

NaviScout

In the future, online functions could be integrated into "NaviScout" to provide information about currently starting or postponed panel discussions and forum contributions, for example.

Naviscout

Route Train Navigation

awiloc® as a basis for the routing of route trains.

Routenzug Navigation

Indoor positioning

Flexible and cost-effective localization of industrial trucks with awiloc®

Model Projects in the Research Area Positioning

Smart KPI determination

CPS in on-site transportation: measuring efficiency with automatically generated key values

CPS

IMSK

Mobile information systems for personal safety at large events with awiloc®

IMSK

NAMES

With NAMES©, a robust and fault-tolerant location in the domestic environment is achieved, which functions seamlessly outdoors and in the home.

NAMES

NADINE

As part of the NADINE project, a travel guide was developed that seamlessly connects public transport routes and pedestrian navigation.

NADINE

ACCESS

The ACCESS research project is concerned with developing tourist offers and places in such a way that they are more perceptible for senior citizens with reduced mobility.

ACCESS

MODIS

Localization and navigation services for positioning in connection with emergency and care systems

MODIS

Holodeck VR

The future of virtual reality

Holodeck

RIS4NGWB

RIS4NGWB focuses on promoting test infrastructures and studies in the 5G/6G backbone area. 

RIS4NGWB

DeltaPro

In the DeltaPro project, we are researching and demonstrating how radio networks can be used for precise positioning and radio sensing in real production environments to make processes more transparent, efficient and secure.

DeltaPro

XGDensify

In the XGDensify project, we are developing an end-to-end pipeline for environmental perception: from 3D models and material recognition to ray tracing simulations, in order to create realistic models for 5G and future 6G networks.

XGDensify