Automotive IT is any hardware or software designed to enhance and support the experience of operating a motor vehicle. Equipping automobiles with readily available information means redesigning features ranging from engine systems to central consoles in order to accommodate the evolution. Common goals of automotive IT include streamlined key entry, ease of use, fuel efficiency, entertainment and safety. As the automotive industry steadily moves toward electric and autonomous vehicles, even more software is being added. That means more developers are leveraging AI and machine learning, and a greater amount of connectivity is being added to vehicles. Automotive IT Development Ford Jaipur brings to the customers various IT designed updates for automobiles. We are a team of 100 managers, technicians, and developers. What we have in store for you is:
Autopilot safety mode This feature allows the driver to give the car permission to operate on its own if a collision is imminent.
Charging apparatus
In an electric car, charging hardware can include the input port in the vehicle, any necessary connectors, and a power source.
Computerized diagnostics
Mechanics and automobile owners can determine the health of the parts and systems in their automobile by hooking up a professional digital scanner and running computerized on-board diagnostic.
Autopilot safety mode
Vehicles often come equipped with a button that alerts first responders if a collision occurs or an airbag is deployed.
Driverless and driver-assist features
Vehicles can use computer software, cameras and sensors to operate fully autonomously.
Forward-facing radar
Forward-facing RADAR is used as part of collision warning systems.
GPS
Some automobiles connect to the GPS, allowing drivers to determine their geographic location and the exact coordinates of their destination. In systems with built-in screens, the navigation can even be physically displayed to the driver.
Hands-free use of devices
Users can operate their devices or make/answer phone calls using voice commands and a Bluetooth connection to the speaker system.
Keyless or remote keyless entry
For cars with digital locks and remote entry, the driver can hit a button to unlock the vehicle, stand within a certain range and pull on the handle, or even use a cell phone to forward the signal to the car.
Lane departure detection
Using sensors, some automobiles are able to detect the painted lines in the road and automatically steer to stay within them.
Geo Location
Geolocation refers to any type of technology that can identify a geographic location, from a sweeping swath of land to a needle in a haystack. By locating an associated device in real time, you can locate an important asset, being a container, a trailer, a pallet, etc. Often the device is a mobile phone or an internet-connected device.
Over-the-air software updates
For vehicles that run on software systems, the automobile company can push updates to all vehicles at once using over the air (OTA) updates.
External cameras
Rear, side or forward-facing cameras can help drivers see their surroundings or act as part of various built-in systems that input visual and location data.
Ultrasonic sensors
In many vehicles, ultrasonic sensors are used to help with parking and detecting nearby objects.
Automotive IT Development Ford Jaipur offers personalized and affordable IT services for your automobiles. We have different developers, engineers, technicians thanks to this diversity of profiles that we are able to offer you quality services.
AEB systems
Use radar, cameras and lidar technology to assess the road ahead and work out potential collisions
Case Study
Business Challenge
An international automobile rally was to take place with all 2015 to 2020 medium cost model cars, Ford had to add in as much IT products into the cars to make them super fit for the rally across the state of Rajasthan. At the same time, being able to implement rapid response strategies as we had very little time to upgrade 20 cars. 20 cars had to be upgraded in 3 days. The rapid technology of the IT management in the vehicles by our team set us in for the big challenge.
Our Approach:
To immediately get the IT technicians and developers together to examine the fleet of cars setting out for the rally. And to verify what best IT designed devices could be fitted to the various automobiles in the least possible time. Some of the common ones were- Autopilot safety mode, Autopilot safety mode, GPS, External cameras Rear, side or forward. Most modern cars feature autonomous systems like Autonomous Emergency Braking (AEB). Other devices had to be loaded selectively after figuring out whether the particular model car would respond to it or not. Our conceptual proposal for the platform included design, development, digital strategy, integration options, features and wireframes. Each rallyist was asked to take a test drive and feel the comfort of the devices before the actual race, and if they faced any shortcomings, they were fixed. Good programming practices and thorough testing efforts are critical for eliminating security vulnerabilities. This can be achieved by using secure coding standards. Threat modeling and risk mitigation are key to developing safe components. This can be achieved by doing a hazard and risk analysis. SOTIF Safety of the Intended Functionality- provides guidance on design, verification, and validation measures. Applying these measures helps you achieve safety in situations without failure.
Here are some examples that ISO 21448 provides:
(a) Design measure example: requirement for sensor performance.
(b) Verification measure example: test cases with high coverage of scenarios.
(c) Validation measure example: simulations.
Customer Outcome
With a rallyist -accessible credential portal that we incorporated high security cars and user experience automobiles was one of the many competitive advantages we created with the best security, IT devices we loaded into the cars for the rally. Our IT solution included information collection, integration with the directory subject to further approval and developing a more secure platform for the customers.
We made effort to ensure the best possible user experience. These days IT supports are fashionable and necessary and require certain know-how. Nowadays, more and more companies have their own center around IT and development in order to optimize automotive IT development. SOTIF (ISO/PAS 21448) Safety of the Intended Functionality- was developed to address the new safety challenges that autonomous (and semi-autonomous) vehicle software developers are facing. This is especially important as artificial intelligence (AI) and machine learning play key roles in the development of autonomous vehicles.
Keywords: IT Case Study, Ford Motor, Case Study, IT Devices, Artificial Intelligence, Design, Sensors, Automotive
0 Comments