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INDIANAPOLIS--(BUSINESS WIRE)--Dec 19, 2024-- The Indy Autonomous Challenge (IAC), a global leader in high-speed autonomy, is gearing up for a monumental return to CES 2025 with exciting new developments, including the introduction of multicar racing and the future of physical AI . Set to take place on January 9, 2025 at the Las Vegas Motor Speedway from 2-4 PM PST , the Autonomous Challenge at CES 2025 will mark a significant milestone in the development of autonomous technologies, offering attendees a firsthand look at the evolution of AI in high-speed motorsport. A New Era of AI Racing: Multicar Showdown and Tiered Competitions Having introduced the world to head-to-head autonomous racing three years ago at CES, the IAC will attempt another historic feat during CES 2025 with a multicar exhibition race. Teams will run 3-4 autonomous racecars on track at the same time, in a thrilling 20-lap format. This marks a significant leap forward in high-speed autonomy, as the exhibition race will test not just individual car performance but the ability of AI systems to manage complex multi-agent interactions at high speed. The IAC race event at CES2025 will feature a progressive three-tiered structure, designed to ensure teams at every level can actively compete and push the boundaries of their AI driver development: This structure allows for a progressive increase in AI racing difficulty, ensuring all teams, regardless of experience, have a chance to showcase their AI driver development in the ever-evolving landscape of autonomous racing. New Teams and Exciting Partnership The IAC has also welcomed two new university teams: Indiana University and California Institute of Technology , bringing the total number of IAC teams to ten. These new additions further elevate the competition, expanding the IAC’s global pool of talent and expertise that are working on a common AI and robotics platform to accelerate the future of high-speed autonomy The IAC’s commitment to pushing the boundaries of AI extends beyond racing, through a strategic collaboration with the U.S. Defense Advanced Research Projects Agency (DARPA) which selected IAC as an official test and evaluation platform to be used in improving AI training for autonomous systems. This work is part of a new DARPA program, Transfer Learning from Imprecise and Abstract Models to Autonomous Technologies (TIAMAT) which aims to address the “simulation to real” gap in AI training. “The Indy Autonomous Challenge is truly leading the charge in the physical AI revolution,” said Paul Mitchell, President of the Indy Autonomous Challenge. “By pushing the limits of autonomous technology on the racetrack, we’re not just developing AI that can drive racecars—we’re creating systems that can be applied to everything from aviation to autonomous vehicles and robotics. The race at CES will be a showcase of cutting-edge innovation, and it’s also a great example of what can be achieved when government, academia, and industry come together to tackle some of the biggest tech challenges of our time.” IAC at CES 2025: A Hub for Innovation As a leader in the physical AI revolution , the IAC will take center stage at CES 2025 , the world’s largest innovation event. The IAC will have a prominent display in the West Hall lobby, showcasing the IAC-AV-24 world’s fastest autonomous racecar, along with a series of CES Conference Sessions exploring the future of AI in motorsport and beyond. Sessions include: These sessions will provide key insights into the future of physical AI and its potential to revolutionize mobility while increasing sustainability and quality of life. Race Day and VIP Experience at CES The Indy Autonomous Challenge race day at CES 2025 will be held at the Las Vegas Motor Speedway, setting the stage for a thrilling exhibition of innovation, speed, and AI advancement. Taking place on January 9 from 2-4 PM PST , this exciting autonomous race event will include three competitions: Time Trials, Passing Competition, and Multicar Race Exhibition. Ample parking will be available at the venue, and rideshare drop-offs are encouraged for added convenience. This year’s official IAC at CES Media Briefing will take place at the Media Center of the Las Vegas Motor Speedway on January 9, 2025, at 1:15 PM , right before race activities begin. Reporters will receive the latest updates, learn about the innovations on the track, and have the opportunity for an open Q&A with IAC leadership and team leads. Media Registration: To attend any IAC track events as media, including tier 1, 2 and 3 exhibitions and/or to attend the media briefing, please register here . Media Contact & Resources: To request an interview with IAC stakeholders or to plan media tours at the track and/or booth, please contact IAC@OneMoreVolley.com . High-resolution images and additional information about the Indy Autonomous Challenge are available on the IAC Media Page . About the IAC: The Indy Autonomous Challenge (IAC) is a non-profit organization based in Indianapolis, Indiana (USA) that organizes racing competitions among university-affiliated teams from around the world. Teams program AI drivers to pilot fully autonomous racecars and compete in a series of history-making events at iconic tracks. The IAC is working to establish a hub for performance automation in the state and is harnessing the power of innovative competitions to attract the best and the brightest minds from around the globe to further state-of-the-art technology in the safety and performance of autonomous vehicles. The IAC started as a $1 million prize competition with 31 university teams signing up to compete more than four years ago, representing top engineering and technology programs from 15 U.S. states and 11 countries. Follow the IAC on LinkedIn , Twitter , Instagram , Facebook , & YouTube . View source version on businesswire.com : https://www.businesswire.com/news/home/20241219471601/en/ IAC@OneMoreVolley.com KEYWORD: INDIANA NEVADA UNITED STATES NORTH AMERICA INDUSTRY KEYWORD: ARTIFICIAL INTELLIGENCE EDUCATION PROFESSIONAL SERVICES MOTOR SPORTS INTERIOR DESIGN OTHER ENTERTAINMENT CONSTRUCTION & PROPERTY DATA ANALYTICS NANOTECHNOLOGY AUTOMOTIVE MANUFACTURING SOFTWARE NETWORKS MANUFACTURING VEHICLE TECHNOLOGY SPORTS HARDWARE ENTERTAINMENT ELECTRONIC DESIGN AUTOMATION DATA MANAGEMENT PERFORMANCE & SPECIAL INTEREST TECHNOLOGY AUTOMOTIVE AUTONOMOUS DRIVING/VEHICLES GENERAL AUTOMOTIVE UNIVERSITY SOURCE: The Indy Autonomous Challenge Copyright Business Wire 2024. PUB: 12/19/2024 03:44 PM/DISC: 12/19/2024 03:45 PM http://www.businesswire.com/news/home/20241219471601/en

AUM of USD 635 Billion at ADFW Caps Stellar Q4 as Trillion-Dollar Club Flock to ADGMFor a running back, the thousand-yard season is the gold standard of performance. Last year in the FBS 45 backs achieved it, the year before, 39. So far in 2024, 20 backs have hit the thousand mark, including Oregon's Jordan James. James' tough running was a vital part of the Ducks 16-13 road victory over Wisconsin. In the fourth quarter he bounced a counter play outside for an 11-yard touchdown early in the fourth quarter to tie the game at 13-13. In their game-winning field goal drive that started at the 6:49 mark from the Home 43, James took the ball for 9, 12, three and three yards down to the Wisconsin 16. The heavy dose of James set up a keeper by Dillon Gabriel, down to the Badger 6. Three plays later, Atticus "Automaticus" Sappington drilled a 24-yard field goal to make it 16-13. For the game, the 5-10, 210-pound junior pounded out 121 yards on 25 carries, giving him 1,067 on the year. His longest run from scrimmage on that brisk night in Camp Randall was just 14 yards-- a lot of tough running went into reaching the century mark. After the game reporters asked him how he felt about reaching 1000, the 29th player in program history to do so. “It means a lot,” James said. “I want to thank my offensive line; that's not possible without those guys and what they do up front.” It's a me, me, me world. Every day we read stories of athletes declaring "I'm him," or striking the pose for an award or a viral social media moment. It was nice to hear a football player remember that it's a team game, and nothing he does is possible without the big guys who pave the way. The current Oregon offensive line is among the semi-finalists for the Joe Moore Award, the top honor given to o-line units across the country. In the last three seasons the Quack Attack has featured a thousand-yard rusher in each. 2024, James, 1067. 2023, Bucky Irving, 1180. 2022, Irving, 1058. Over that same period the Duck o-line has given up 22 sacks in 3 SEASONS. Washington's o-line has allowed 24 this year, 14th in the Big Ten.Seventy-five years ago, on November 26, the Constitution of India was adopted. The longest-written Constitution of any sovereign country in the world embodies the sacrifices, hopes, and ideals of a nation reborn. Two manuscripts, one in English and another in Hindi, meticulously crafted by Prem Behari Narain Raizada and brought to life with the artistry of Nandalal Bose, are more than ink and parchment papers. Its pages come alive with the imagery that journeys from the ancient marvels of Mohenjo Daro and the spiritual wisdom of the Vedic age to the indomitable spirit of India’s freedom movement. Every stroke of ink represents the promise of a democratic republic. As we celebrate the 75th Samvidhan Diwas, we must also acknowledge the potential fragility of these nation’s treasures. Time, indifferent to sentiment, threatens even the most resilient creations, and the original calligraphed copies of the Constitution, bearing the signatures of its founding fathers, are no exception. While high-quality digital versions are readily available online, and countless transcripts exist in books and manuscripts, the two original copies remain invaluable treasures that must be preserved for posterity. This is where science plays a crucial role. In the mid-1980s, the Council of Scientific and Industrial Research’s National Physical Laboratory (CSIR-NPL) stepped in to safeguard these legacies. Over the next few years, CSIR-NPL navigated through the challenging aspects of constructing safe receptacles that can preserve the original hand written manuscripts of the Constitution of India. The display cases needed a hermetic seal with mechanical strength to withstand varying humidity, temperatures and oxygen level and the durability to endure the test of time. After years of meticulous effort, the CSIR-NPL, in collaboration with the Getty Conservation Institute (GCI), US, successfully installed the ‘hermetically sealed glass cases’ at the Parliament Library in 1994. These hermetically sealed receptacles are designed to maintain a controlled micro-environment of less than 1% oxygen and humidified nitrogen with 40-50% relative humidity. The display cases, containing the English and Hindi versions of the Constitution of India, are placed in a vault-like climate-controlled room in the library of the Parliament of India. Each case is individually mounted on polished stainless-steel stands, enclosed in varnished teak cabinets that conceal the metal frames. The stands and cabinets were custom-built at CSIR-NPL. Furthermore, these receptacles are evaluated periodically by a team of NPL scientists, and the Parliament Library monitors them every week. By preserving the Constitution of India for posterity, we honour the dreams of those who envisioned a free and democratic India and reaffirm our commitment to the values that continue to shape our nation today and forever. Jitendra Singh is Union minister of state (independent charge) ministry of science & technology, (independent charge) ministry of earth sciences; MoS PMO, ministry of personnel DoPT, administrative reforms, public grievances & pensions, department of atomic energy and department of space, Government of India. The views expressed are personal

Tax Reform Brouhaha

Kroger/Albertsons Ruling Provides Lessons for Merger Remedy DivestituresIf you’re deep into comparison shopping for fitness watches, you’ve probably come across some debate on the different display technologies. Manufacturers are moving toward AMOLED style screens (bright! Colorful! Sharp! Modern!) while some longtime users are diehards for the older MIP or LCD style screens (the general vibe is: pry them out of my cold dead hands). So where does that leave you, the shopper, wondering what to get for your first or next watch? I’m going to break down all the pros and cons. What’s the difference between MIP and AMOLED displays? I’m going to gloss over a lot of the detail you’d need to be an engineer to love and concentrate on what it’s like to use these screens. With that in mind: AMOLED displays have tiny pixels that glow to create the display, leaving black areas where the pixels are not turned on. (Your phone’s screen is probably AMOLED.) AMOLED displays are full color, and they use power any time they’re on. They’re bright and highly visible in the dark, but can potentially get washed out in extremely bright sunlight. MIP displays (memory-in-pixel), also called memory LCD, do not light up on their own. These displays reflect light, much like old-school LCD watches, so they are highly visible in sunlight but require a backlight to be seen in the dark. They can display color, but only a limited range of colors and they are not as vibrant or as high-resolution as AMOLED screens. AMOLED displays tend to be higher resolution, brighter, and sharper. MIP displays look more old-fashioned, but they always look good in bright sunlight, and they can be always-on without running down the battery life (assuming you have the backlight turned off). AMOLED displays tend to be touchscreens, but MIP displays can have touchscreens as well. For example, the Coros Pace 3 has a touchscreen, while the Garmin Forerunner 55 does not. (If you don’t want a touchscreen, you should know that you can disable the touchscreen on most sports watches.) Which watches have MIP and which have AMOLED displays? We’re currently at a transition point where most manufacturers are moving toward AMOLED if they haven’t switched already. Any fancy-looking smartwatch is likely to be AMOLED; there’s no MIP Apple Watch, for example. But among sports watches, there are plenty of models with MIP displays still being sold new. Here’s a breakdown of some of the more popular watches: AMOLED (or similar) displays: Apple Watch Samsung Galaxy Watch Pixel Watch Fitbit Charge 5 and Charge 6 Coros Pace Pro Garmin Forerunners 165, 265, and 965 Garmin Vivoactive 5 Garmin Venu 2 and 3 Garmin Fenix 8 AMOLED Polar Vantage, Ignite 3, Grit X2 Pro Suunto Race MIP (or similar) displays: Coros Pace 3, Apex 2, Apex 2 Pro, Vertix 2 (everything except the Pace Pro) Garmin Forerunners 55, 255, 955, and any other Forerunner not ending in -65 Garmin Instinct (this is actually not MIP but a regular 2-color LCD) Garmin Vivoactive 4 Garmin Fenix 7 Garmin Fenix 8 Solar Polar Pacer, Pacer Pro, Grit X, Grit X Pro Suunto Core, 9 Baro, 9 Peak Real-world visibility tests I’ve been reviewing watches nonstop for a few months now, mostly AMOLED models, so I was surprised when I dug into the running watch forums and found people saying they would never upgrade to an AMOLED watch because they just aren’t readable in sunlight. Huh? Every AMOLED watch I’ve tested has been great in the sun. But OK, maybe there was something I was missing. Ever since I read those posts, I’ve been paying attention to visibility, the better to form my own opinions. I got into the difference in display types in my comparison between the Coros Pace 3 (MIP) and Pace Pro (AMOLED) , for example. And for today’s analysis, I’ve also borrowed a Forerunner 55 (MIP) to compare to my Forerunner 265S. So let’s take a look. In bright sunlight, at the right angle, MIP has a slight edge This is the best case for MIP superiority, and it comes with caveats, so let’s enjoy it while we can. When you have bright light shining directly on a MIP screen, it practically glitters. Modern AMOLEDs tend to be pretty bright as well, but on the brightest of days in the directest of sunlight, they can be a bit washed out. That said, AMOLEDs don't show up well in photos on sunny days, so I don't think the photo above really does the AMOLED screen justice. (Those black horizontal lines on the AMOLED are also an artifact of the camera taking the picture faster than the display could refresh; they're not visible in real life.) I didn’t have a lot of great side-by-side photos in sunlight, so for another test I put both Forerunners directly under a bright desk lamp. A desk lamp is not the sun. However, I feel like this is a better demonstration of typical conditions—as judged by my own personal eyes and brain. Your own opinion might differ. If you're making your shopping decision based on how the displays look in sunlight, trying them out in person will tell you a lot more than any photo will. (Underrated shopping tip: show up to a running club and ask everybody about their watch. They'll be more than happy to show them off.) In shadow (even on a sunny day), AMOLED stays visible I went for a few runs on bright sunny days with both of the Coros watches, and found I actually preferred the AMOLED display even in the sun. That’s because sunny days are also days with deep shadows. You have to get the angle just right to get that bright glittery effect on a MIP screen. But an AMOLED will shine from the shadows. Most of the time, either my body or the screen’s own bezel was shading it a bit. The photo above was taken on the same day, same run, as the outdoor Coros photo in sunlight. The sun didn't go behind a cloud, I was just standing in a different position. And the photo here is the exact same setup with the desk lamp, but with the watches angled just a few degrees downward. Drastic difference in readability. Now, if you’re used to MIP watches, you’re used to angling them into the sun to get a good look. If you’re fine with that, great. I prefer the AMOLED in this situation. In medium-light scenarios, both are good Here are both watches outdoors, on an overcast day, displaying the kind of screen you'd see most often during a running or other sports activity. This is probably the most telling photo of all: they are both fine. The MIP watch makes up for its potential visibility issues by defaulting to a white background, and the AMOLED just keeps showing bright numbers on a dark screen like usual. I use the AMOLED (the 265S) in this photo for most of my runs—it's not a review unit, it's the watch I actually own—and it's always visible, always looks great, in any weather and with or without sunglasses. But the MIP? It's good too! Nobody loses points here. In the dark, both screens light up just fine You probably expected me to say that AMOLED is better in the dark. Honestly, while AMOLED is prettier in the dark (and prettier almost anytime, because AMOLED displays tend to be much higher resolution), both screens are equally readable. The same gesture that wakes the AMOLED screen can wake the MIP screen’s backlight. (Please note that both watches are much sharper than the photo in real life. The blur you're seeing is just me failing to hold the camera perfectly steady in a dark room.) In actual darkness, like when you’re putting your kids to bed, your best bet is an AMOLED watch with a “sleep mode” that displays the time dimly. That way you don’t need to turn on a backlight to see the time. So if you’re concerned about the light being too bright, you probably want AMOLED. Battery usage MIP diehards like to say that MIP screens are more battery efficient. That may be technically true, but nobody buys a watch based on the battery life of its display . We want to know about the battery life of the entire watch . And honestly, AMOLED watches tend to have just as good a battery life as their MIP counterparts. Whether it’s better battery technology, power savings elsewhere in the software or hardware, or AMOLED itself being more efficient than you’d expect, it doesn’t matter. The Forerunner 965 (AMOLED) and the Forerunner 955 (MIP) both have a battery life of 8.5 hours during an activity with multi-band GPS mode and music playing. In smartwatch mode (not tracking activities), the 965 lasts 23 days in smartwatch mode, compared to 15 days for the 955. In other words, the AMOLED watch lasts eight days longer . If battery life is your priority, in this situation you’d want the AMOLED. This will vary by model, of course. Look up the battery life specs for the specific watches you’re interested in. Maybe the MIP model will last longer, but maybe the AMOLED will. Don’t make assumptions about the battery based on the look of the screen. How to make a decision You've seen my photos and heard my opinions, but ultimately you need to make a decision for yourself. And of the two display types, I'll be honest: neither is unusable or terrible or has some horrific misfeature that should be a dealbreaker. I do think that most people will prefer the AMOLED style. But if you end up with a MIP display, it will be fine . So let me run through a few things to keep in mind: If you already have a MIP watch and love it , I wouldn’t fault you for sticking with MIP. You already know the downsides and you don’t mind them. If you love a MIP watch but are afraid that you wouldn’t like an AMOLED watch , don’t let that stop you from shopping AMOLED models. The downsides of AMOLED (as the internet tells them) are wildly exaggerated. If you have seen both watches in person , in a wide variety of lighting conditions, and have a strong opinion, just go with your preference. If you’re new to all of this and feeling confused right now , you’ll probably like AMOLED better. All the new watches are AMOLED anyway. If your dream watch needs to be an older MIP watch to fit in your budget , go ahead and get it. It will be fine. That last point is one where you’ll want to do some math. Often you can get an older generation of a feature-rich watch for the same price as the newest generation of a more barebones model. That’s the case right now for a lot of Garmin models, where pretty much everything released in the last year or so has an AMOLED screen, and everything before it is MIP. For example, looking only at the newest models, the Forerunner 965 is a more feature-rich watch than the 265, and costs $599 versus $449. But if you went a generation back and got the Forerunner 955 , with a MIP screen, that watch is available right now for $399—which is $50 less than the new, AMOLED Forerunner 265 . Worth it? That’s your call. But a lot of people would go for the 955, if they care about the 9xx series features (like maps and skiing features) more than they care about the screen. And now that you've seen the photos and read my deep dive, you're able to make that decision for yourself.

Fantasy plays: Players to start and sit for NFL Week 13INDIANAPOLIS--(BUSINESS WIRE)--Dec 19, 2024-- The Indy Autonomous Challenge (IAC), a global leader in high-speed autonomy, is gearing up for a monumental return to CES 2025 with exciting new developments, including the introduction of multicar racing and the future of physical AI . Set to take place on January 9, 2025 at the Las Vegas Motor Speedway from 2-4 PM PST , the Autonomous Challenge at CES 2025 will mark a significant milestone in the development of autonomous technologies, offering attendees a firsthand look at the evolution of AI in high-speed motorsport. A New Era of AI Racing: Multicar Showdown and Tiered Competitions Having introduced the world to head-to-head autonomous racing three years ago at CES, the IAC will attempt another historic feat during CES 2025 with a multicar exhibition race. Teams will run 3-4 autonomous racecars on track at the same time, in a thrilling 20-lap format. This marks a significant leap forward in high-speed autonomy, as the exhibition race will test not just individual car performance but the ability of AI systems to manage complex multi-agent interactions at high speed. The IAC race event at CES2025 will feature a progressive three-tiered structure, designed to ensure teams at every level can actively compete and push the boundaries of their AI driver development: This structure allows for a progressive increase in AI racing difficulty, ensuring all teams, regardless of experience, have a chance to showcase their AI driver development in the ever-evolving landscape of autonomous racing. New Teams and Exciting Partnership The IAC has also welcomed two new university teams: Indiana University and California Institute of Technology , bringing the total number of IAC teams to ten. These new additions further elevate the competition, expanding the IAC’s global pool of talent and expertise that are working on a common AI and robotics platform to accelerate the future of high-speed autonomy The IAC’s commitment to pushing the boundaries of AI extends beyond racing, through a strategic collaboration with the U.S. Defense Advanced Research Projects Agency (DARPA) which selected IAC as an official test and evaluation platform to be used in improving AI training for autonomous systems. This work is part of a new DARPA program, Transfer Learning from Imprecise and Abstract Models to Autonomous Technologies (TIAMAT) which aims to address the “simulation to real” gap in AI training. “The Indy Autonomous Challenge is truly leading the charge in the physical AI revolution,” said Paul Mitchell, President of the Indy Autonomous Challenge. “By pushing the limits of autonomous technology on the racetrack, we’re not just developing AI that can drive racecars—we’re creating systems that can be applied to everything from aviation to autonomous vehicles and robotics. The race at CES will be a showcase of cutting-edge innovation, and it’s also a great example of what can be achieved when government, academia, and industry come together to tackle some of the biggest tech challenges of our time.” IAC at CES 2025: A Hub for Innovation As a leader in the physical AI revolution , the IAC will take center stage at CES 2025 , the world’s largest innovation event. The IAC will have a prominent display in the West Hall lobby, showcasing the IAC-AV-24 world’s fastest autonomous racecar, along with a series of CES Conference Sessions exploring the future of AI in motorsport and beyond. Sessions include: These sessions will provide key insights into the future of physical AI and its potential to revolutionize mobility while increasing sustainability and quality of life. Race Day and VIP Experience at CES The Indy Autonomous Challenge race day at CES 2025 will be held at the Las Vegas Motor Speedway, setting the stage for a thrilling exhibition of innovation, speed, and AI advancement. Taking place on January 9 from 2-4 PM PST , this exciting autonomous race event will include three competitions: Time Trials, Passing Competition, and Multicar Race Exhibition. Ample parking will be available at the venue, and rideshare drop-offs are encouraged for added convenience. This year’s official IAC at CES Media Briefing will take place at the Media Center of the Las Vegas Motor Speedway on January 9, 2025, at 1:15 PM , right before race activities begin. Reporters will receive the latest updates, learn about the innovations on the track, and have the opportunity for an open Q&A with IAC leadership and team leads. Media Registration: To attend any IAC track events as media, including tier 1, 2 and 3 exhibitions and/or to attend the media briefing, please register here . Media Contact & Resources: To request an interview with IAC stakeholders or to plan media tours at the track and/or booth, please contact IAC@OneMoreVolley.com . High-resolution images and additional information about the Indy Autonomous Challenge are available on the IAC Media Page . About the IAC: The Indy Autonomous Challenge (IAC) is a non-profit organization based in Indianapolis, Indiana (USA) that organizes racing competitions among university-affiliated teams from around the world. Teams program AI drivers to pilot fully autonomous racecars and compete in a series of history-making events at iconic tracks. The IAC is working to establish a hub for performance automation in the state and is harnessing the power of innovative competitions to attract the best and the brightest minds from around the globe to further state-of-the-art technology in the safety and performance of autonomous vehicles. The IAC started as a $1 million prize competition with 31 university teams signing up to compete more than four years ago, representing top engineering and technology programs from 15 U.S. states and 11 countries. Follow the IAC on LinkedIn , Twitter , Instagram , Facebook , & YouTube . View source version on businesswire.com : https://www.businesswire.com/news/home/20241219471601/en/ IAC@OneMoreVolley.com KEYWORD: INDIANA NEVADA UNITED STATES NORTH AMERICA INDUSTRY KEYWORD: ARTIFICIAL INTELLIGENCE EDUCATION PROFESSIONAL SERVICES MOTOR SPORTS INTERIOR DESIGN OTHER ENTERTAINMENT CONSTRUCTION & PROPERTY DATA ANALYTICS NANOTECHNOLOGY AUTOMOTIVE MANUFACTURING SOFTWARE NETWORKS MANUFACTURING VEHICLE TECHNOLOGY SPORTS HARDWARE ENTERTAINMENT ELECTRONIC DESIGN AUTOMATION DATA MANAGEMENT PERFORMANCE & SPECIAL INTEREST TECHNOLOGY AUTOMOTIVE AUTONOMOUS DRIVING/VEHICLES GENERAL AUTOMOTIVE UNIVERSITY SOURCE: The Indy Autonomous Challenge Copyright Business Wire 2024. PUB: 12/19/2024 03:44 PM/DISC: 12/19/2024 03:45 PM http://www.businesswire.com/news/home/20241219471601/en