Li-Fi replacing Wi-Fi: multipoint-to-multipoint-capable optical data transmission for automation

Nov. 10, 2017
Fraunhofer IPMS to show its multipoint Li-Fi and its GigaDock cable replacement at Nov. 2017 SPS IPC Drives trade show.

Researchers around the world are developing light-fidelity (Li-Fi) technology (the use of light to exchange large amounts of data) to augment, or sometimes replace, the widely used Wi-Fi. Developers at Fraunhofer IPMS (Dresden, Germany) are working on Li-Fi systems specifically for use in industrial environments. The use of Internet of Things (IoT) technology in industry is known as Industrial Internet of Things (IIoT) or Industry 4.0.

In addition to allowing different users in an industrial setting to simultaneously use an access point, the IPMS-developed optical transmission technology enables each user to communicate with several access points. As a result, Li-Fi is no longer limited to stationary applications. Fraunhofer IPMS specialists will present this multipoint-to-multipoint-capable technology to the professional public for the first time at the 2017 SPS IPC Drives Trade Fair for Electric Automation (Nuremberg, Germany; November 28-30, 2017).

In the age of smart production, more and more users rely on wireless data transfer between devices used in logistics, industrial manufacturing, and machine maintenance. However, those radio solutions (Wi-Fi), which have proven themselves in the consumer sector, quickly reach their limits in highly automated production environments. Wi-Fi networks are susceptible to interference because other wireless methods, such as Bluetooth, partially transmit in the same frequency ranges, causing multiple channel assignments and overlapping frequency usages. They also slow down as the increased number of users and larger volumes of data to be transferred decelerate both the data rate as well as communication cycle times. And Wi-Fi networks are susceptible to abuse, as it is relatively easy for skilled hackers to crack even encrypted networks.

According to Fraunhofer IPMS, its Li-Fi optical data transmission performs far better than Wi-Fi in every respect. Its Li-Fi hotspot transceiver system uses the optical spectrum of light, which is available free of regulations worldwide, and which eliminates interference with and from radio-based systems. Net bandwidths of up to one gigabit per second are much faster than today's Wi-Fi. IPMS also claims that Li-Fi networks offer security against hacker attacks.

The multipoint approach

But optical data transmission also has a systemic vulnerability: the visual axis between transmitter and receiver must remain unobstructeda significant shortcoming, especially in mobile applications. In order to not be limited to stationary applications when using Li-Fi technology, Fraunhofer IPMS specialists are working on so-called multipoint-to-multipoint solutions.

"Our communication modules allow multiple users to act simultaneously in the same spot," says Alexander Noack, project manager at Fraunhofer IPMS. "At the same time, each user can switch between different, overlapping access points along a production line. Provided the coverage is adequate, we are in a position to guarantee mobile users a free viewing axis at all times to accommodate uninterrupted data exchangefaster, more stable, and more secure than possible with radio-based infrastructures."

The Fraunhofer IPMS driverless transmit/receive modules combine an optical transceiver and a protocol controller with a gigabit Ethernet interface. To allow potential users to test the equipment, Fraunhofer IPMS is providing its clients with Li-Fi customer-evaluation kits.

GigaDock to replace stationary cables

Fraunhofer IPMS scientists will present the multipoint-to-multipoint-capable Li-Fi HotSpot as a prototype for optical wireless communication at distances of up to 10 meters, as well as the so-called GigaDock technology for smaller distances, at the 2017 SPS IPC Drives Trade Fair. November. GigaDock has bandwidths of up to 12.5 Gbit/s and is intended to complement or replace stationary cable connections in highly automated production environments. Fraunhofer IPMS will be exhibiting this technology at its Booth 246 in Hall 7a.


About the Author

John Wallace | Senior Technical Editor (1998-2022)

John Wallace was with Laser Focus World for nearly 25 years, retiring in late June 2022. He obtained a bachelor's degree in mechanical engineering and physics at Rutgers University and a master's in optical engineering at the University of Rochester. Before becoming an editor, John worked as an engineer at RCA, Exxon, Eastman Kodak, and GCA Corporation.

Sponsored Recommendations

Request a free Micro 3D Printed sample part

April 11, 2024
The best way to understand the part quality we can achieve is by seeing it first-hand. Request a free 3D printed high-precision sample part.

How to Tune Servo Systems: The Basics

April 10, 2024
Learn how to tune a servo system using frequency-based tools to meet system specifications by watching our webinar!

Motion Scan and Data Collection Methods for Electro-Optic System Testing

April 10, 2024
Learn how different scanning patterns and approaches can be used in measuring an electro-optic sensor performance, by reading our whitepaper here!

How Precision Motion Systems are Shaping the Future of Semiconductor Manufacturing

March 28, 2024
This article highlights the pivotal role precision motion systems play in supporting the latest semiconductor manufacturing trends.

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!