Artificial Intelligence in Automotive | Introduction and Uses - News4u95

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Thursday, 7 May 2020

Artificial Intelligence in Automotive | Introduction and Uses

Artificial Intelligence in Automotive

Artificial Intelligence in Automotive

The artificial intelligence in automotive industry has a long track record of leveraging state-of-the-art technology to bring modern, innovative, and safe vehicles to market and continuously reduce manufacturing costs. These technologies now include artificial intelligence and high-performance computing. These are the two keys to a car's success.

Over the years, the artificial intelligence in automotive industry has invested heavily in HPC systems to power modeling, design, and simulation applications, but today this focus is on AI for driving autonomous and semi-autonomous vehicles. It is expanding to include a significant investment. Automakers around the world are aware that these smarter cars are clearly the future, and know they can't get there without AI.

Artificial intelligence in automotive is also used in a wide range of predictive features to personalize the driving experience and enable preventative maintenance. This personalization is made possible by connected vehicles that send data from in-vehicle sensors to manufacturers, advertisers, and insurance companies.


Uses of Artificial Intelligence in Automotive


Uses of Artificial Intelligence in Automotive

Self-Driving


The topic of self-driving car technology may be found throughout the conversation about artificial intelligence in automotive industry. Companies such as NVIDIA, Tesla, and Google Waymo is committed to providing fully self-driving cars, ultimately winning public trust to legalize technology across the United States.

Self-driving cars most commonly used computer vision to detect objects, street lights, and pedestrians. However, it also uses the radar frequency and LiDAR, a laser range system that uses the same principles of operation as radar. This allows machine learning algorithms behind the car to detect how far different objects are from the car, such as other cars, pedestrians, obstacles such as detour signs and traffic cones.

Drivers can become accustomed to AI-assisted driving before fully autonomous driving becomes mainstream. This is an application that utilizes machine vision to detect driver activity while driving.

The artificial intelligence Driving Assistant Program helps to keep drivers safe and can bring the most potential value to insurers who want to keep their customers safe and accountable.

This technology focuses on the movement of the driver's face by detecting eye movements and alerting the driver when they look away from the road. The algorithms behind these assistant programs can also track lip movements and, in some cases, voice.

However, in addition to machine vision technology, natural language processing algorithms are required to detect driver speech when talking to other passengers.

Insurance companies and other companies looking to deploy AI driving assistants can also set up the system to sound an audible alert when the driver looks down at the bag or reads a text message on the phone screen.

In this way, the assistant discourages distracted driving while tracking the driver's behavior. The technology can also use multiple cameras to capture nearby or oncoming objects and alert the driver to react accordingly.

Related Article: Artificial Intelligence in Construction | Introduction and Benefits

Driver Assist

Before artificial intelligence in automotive industry gets used to manipulating AI, we want to put it in the co-pilot's seat first.

Artificial intelligence is perfect for enhancing the advanced safety features of connected vehicles. This will allow customers, manufacturers, and regulators to become accustomed to AI as a driver before getting a driver's license.

By monitoring dozens of sensors, the AI can detect a dangerous situation. You can then warn the driver or take emergency control of the vehicle to avoid an accident. Emergency braking, cross-traffic detectors, blind-spot monitoring, and driver-assisted steering help avoid accidents and save lives along the way.

Connected Car


Artificial intelligence in automotive is an essential technology for connected cars. For example, AI can monitor and predict component failures, allowing OEMs and owners to proactively work to avoid problems. We also provide drivers with location-based information and personalized advertising so they can find what they need. Similarly, AI-enabled systems can send driving and accident data to insurance companies, potentially providing incentives for safe driving habits.

Manufacturing


Since the car manufacturing process is a multi-faceted business in itself, there are many areas where artificial intelligence in automotive applications can be found. At the factory, you can monitor the status of production equipment and heavy equipment with IoT sensors and predictive maintenance.

Each sensor is attached to the instrument and collects vibration data each time the instrument is moved or used. These vibration changes and anomalies indicate damage and natural wear over time, and business leaders can anticipate and perform necessary maintenance before the assembly line avoids an emergency situation, allowing business leaders to monitor equipment. It helps prevent breakdowns.

Artificial intelligence in automotive has many applications in factory vision at the factory level. This includes quality control during production. This type of software can be used by factories to detect defects or inconsistencies in the entire vehicle produced and highlight areas where a new vehicle may need to be further worked on before it can go to market.

Quality Management


A study by the McKinsey Global Institute highlights some of the unique benefits of using AI to inspect automotive components and products. One of these benefits is that AI systems improve their ability to identify defects over time. “AI systems are constantly learning to improve analytics based on feedback,” says McKinsey. “In this way, AI-based hardware can visually inspect multiple products such as machined parts, painted bodies, and metal textured surfaces and ensure good quality control.

Supply Chain


While accurate forecasting is critical to achieving a close match of supply and demand, traditional forecasting and replenishment systems rely on large amounts of data and just-in-time to eliminate many small long-tail items and inventory cushions. production. AI systems can address these challenges by using machine learning to generate more accurate demand forecasts. AI-powered supply chains have the flexibility to adapt and respond to product mix changes and unexpected events, incorporating near real-time data on advertising campaigns, prices, and even weather forecasts.

Ultimately, the AI will allow fully automated adjustment systems to autonomously make supply chain management decisions and adjust routes and volumes in response to projected spikes in demand. Some companies are working internally to develop predictive forecasting and replenishment tools, but rely on established vendors such as Blue Yonder to provide AI technology that can optimize forecasting and replenishment while at the same time adjusting prices.


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