The automotive industry designs, develops, manufactures, markets, and sells motor vehicles and is one of the world's most important economic sectors by revenue. The term automotive industry usually does not include industries dedicated to automobiles after delivery to the customer, such as repair shops and motor fuel filling stations. The automotive industry designs, develops, manufactures, markets, and sells motor vehicles, and is one of the world's most important economic sectors by revenue. The term automotive industry usually does not include industries dedicated to automobiles after delivery to the customer, such as repair shops and motor fuel filling stations.
About 250 million vehicles are in use in the United States. Around the world, there were about 806 million cars and light trucks on the road in 2007, consuming over 260 billion gallons of gasoline and diesel fuel yearly. In the opinion of some, urban transport systems based around the car have proved unsustainable, consuming excessive energy, affecting the health of populations, and delivering a declining level of service despite increasing investments. Many of these negative impacts fall disproportionately on those social groups who are also least likely to own and drive cars. The sustainable transport movement focuses on solutions to these problems.
The first practical automobile with a petrol engine was built by Karl Benz in 1885 in Mannheim, Germany. Benz was granted a patent for his automobile on 29 January 1886, and began the first production of automobiles in 1888, after Bertha Benz, his wife, had proved with the first long-distance trip in August 1888 (from Mannheim to Pforzheim and back) that the horseless coach was absolutely suitable for daily use. Since 2008 a Bertha Benz Memorial Route commemorates this event.
Here are seven of the biggest advantages of the cloud in the automotive manufacturing sector:
Minimizing Complexity:
The automotive sector has one of the most complex IT environments of any major industry. From handling critical business processes to facilitating engineering simulations, automotive facilities deal with a wide array of demands that require agile, robust compute power to manage properly. Even with these capabilities, the management of this environment can be difficult even for automotive teams with diverse technical experience.
Enhancing Security:
Automotive facilities can boost their security and minimize their risk by doing something as simple as switching to the cloud. All cloud services come with staff who leverage their expert knowledge to manage stored systems and ensure their security at all hours of the day, seven days a week. These cloud specialists frequently test clients’ environments to ensure that they meet security demands.
Boosting Collaboration:
Collaboration is one of the most important elements of the supply chain in the automotive sector. Not only do manufacturers need to communicate internally, but they must also consistently work with outside distributors, manufacturers, and other entities to create their products. Since each one of these businesses utilizes its own methods of business-to-business (B2B) communication, coordinating disparate elements of communication can be difficult for automotive organizations.
Promoting Sustainability:
In the face of growing environmental challenges and consumer demands, the automotive industry has begun to take steps toward a more sustainable future. Using the cloud can allow these entities to minimize their footprints in both energy consumption and data center usage. In addition, cloud computing helps more automotive manufacturers access the green technology that they need to develop environmentally friendly vehicles for consumers. With the cloud, organizations can more easily create green and efficient products.
Helping to Reduce Costs:
Like other manufacturers, those in the automotive industry have traditionally implemented costly in-house IT hardware and other equipment to accommodate their various production needs. The cloud, however, provides a digital environment for this infrastructure. While companies once needed to manage and repair their own servers, they can instead relinquish these responsibilities to their cloud providers-and the need to purchase this equipment for themselves. This will save them from incurring upfront hardware costs as well as energy and staff resource costs down the line.
Improving Vehicle Safety:
Cloud computing technologies have enabled automotive manufacturers to develop intelligent vehicles that are capable of engaging with their environment. These “connected vehicles” boast a number of drive-assist features that are making it safer for those on the road. For example, many cars now alert drivers to hazardous road conditions, driver inattentiveness at the wheel, and other potential dangers. Some can even help prevent vehicle collisions by warning drivers of an impending impact or even stopping the vehicle itself before coming into contact with another object. All of these safety features-and more-are helping safeguard the lives of both passengers and drivers thanks to the cloud.
Enabling manufacturers to deliver better aftermarket services:
The cloud has done more for automotive manufacturing than enhancing the safety of vehicles; it has enabled more manufacturers to provide their customers with innovative aftermarket features. The latest vehicles boast dynamic GPS services, smartphone optimization, and other features that deliver the connectivity that consumers are looking for. Thanks to the cloud, vehicles today seem more like computers than ever before-drivers can connect their phones to their car’s stereo or search for directions with as little as a voice command. Features such as these are increasingly becoming a more instrumental part of automotive manufacturing as cloud adoption becomes the industry norm.
