Mercedes39 PETRONAS has both forward and rearfacing cameras that record thermal images of the tires Qualcomm39s wireless system sends the performance data crunched by onboard processors to engineers in the garage and pit lane Image courtesy of Michael Elleray via Flickr

Formula One Race Car Sends Telemetry Data Over Wi-Fi

Nov. 24, 2015
Qualcomm Technologies has partnered with the Mercedes AMG Formula One team to implement a wireless system that can download telemetry data from Mercedes' PETRONAS racecar during practice sessions.

Qualcomm Technologies, the research and development arm of Qualcomm Inc., has partnered with the Mercedes AMG Formula One team to install a wireless system that can download telemetry data from Mercedes' PETRONAS vehicle during practice sessions. Operating over unlicensed 5-GHz Wi-Fi, the system was designed to replace wired data offload for certain systems within the vehicle.

The system takes performance data from the thermal imaging cameras that monitor the status of the tires. The PETRONAS race car has both forward- and rear-facing cameras that continuously record thermal images of the tires. The team’s engineers can leverage this information to help improve the speed, efficiency, and safety of the vehicle, notifying the driver when the tires have to be changed. By not having to plug in the vehicle to access this information, Qualcomm notes that the Mercedes team can better use its limited practice time.

The system, which debuted in practice rounds at the Grand Prix in Austin last month, is designed around an enhanced version of IEEE 802.11ac Wi-Fi, which Qualcomm has named VIVE. A set of Qualcomm Snapdragon 805 processors crunch the data gathered by the thermal cameras. The system then uploads it to multiple Wi-Fi receivers: one in the pit lane, and another located in the garage. Mercedes engineers can then analyze the information and send instructions to the driver.

At the heart of the system is one of the more advanced features of 802.11ac Wi-Fi—namely, Multi-User Multiple-Input, Multiple-Output (MU-MIMO) technology. MU-MIMO allows multiple Wi-Fi links to be assigned to four different devices simultaneously, increasing the total throughput and capacity of the WLAN system. In contrast, older versions of MIMO used inefficient time-slotting protocols to share a single spatial stream between multiple devices.

In an overview of the technology on its website, Qualcomm said that the MU-MIMO approach provides up to three times faster downloads when compared to a single-user MIMO system. Derek Aberle, the president of Qualcomm Inc., confirmed in an Autoblog article that the Mercedes system can deliver the same three-fold increase in download speeds. In the future, Qualcomm plans to migrate the system to 802.11ad Wi-Fi operating over the 60 GHz spectrum.

In Formula One racing, teams download reams of information ranging from engine power and aerodynamic loads to temperature status—all in attempt to accurately assess the performance of their highly complex and finely-tuned vehicles. The Formula One championship has permitted the use of telemetry data since the late 1980s, when teams were sending data in bursts as the vehicle passed close to the pit lane. Now, multiple antenna are placed around the racing circuit, constantly transmitting data about the engine, suspension, fuel, and temperature from the vehicles’ electronic control unit (ECU).

The wireless system is the first project in an agreement that Qualcomm Technologies and Mercedes AMG PETRONAS signed back in March. The collaboration is focused on developing new connected vehicle technologies to enhance the racing team’s preparation and vehicle performance.

For Qualcomm's Aberle, the program is an opportunity to research new technologies that could find their way into everyday vehicles. “This technology, as well as other advanced wireless technologies, has the potential to shape future developments in dedicated short-range communications, and vehicle-to-vehicle and vehicle-to infrastructure communications,” he says.

Sponsored Recommendations

Wideband MMIC LNA with Bypass

June 6, 2024
Mini-Circuits’ TSY-83LN+ wideband, MMIC LNA incorporates a bypass mode feature to extend system dynamic range. This model operates from 0.4 to 8 GHz and achieves an industry leading...

Expanded Thin-Film Filter Selection

June 6, 2024
Mini-Circuits has expanded our line of thin-film filter topologies to address a wider variety of applications and requirements. Low pass and band pass architectures are available...

Mini-Circuits CEO Jin Bains Presents: The RF Engine of the 21st Century

June 6, 2024
In case you missed Jin Bains' inspiring keynote talk at the inaugural IEEE MTT-S World Microwave Congress last week, be sure to check out the session recording, now available ...

Selecting VCOs for Clock Timing Circuits A System Perspective

May 9, 2024
Clock Timing, Phase Noise and Bit Error Rate (BER) Timing is critical in digital systems, especially in electronic systems that feature high-speed data converters and high-resolution...