Automotive software innovation has kept pace with advances in hardware. Electronics and software costs account for up to 35% of total product costs. The introduction of sensors, telematics systems and other elements transforms the car into a hardware platform. There the added value mainly consists of the implementation of complementary digital solutions. Nowadays there are certain laws in automotive software development.
Digital solutions are also transforming how consumers, dealers, services and manufacturers interact. So that interactions occur in real time, seamlessly and entirely electronically.
It is believed that one of the consequences of the invention of the conveyor was the successful development of the automotive industry. The effectiveness of this method lies in the organization of a standard batch production of one model. Then the process is recreated in several sections, each of which performs one operation. The uniformity and stability that helped Henry Ford in the early twentieth century are almost nonexistent in the modern world.
Automakers began to deviate from traditions with more than a century of history. Automotive businesses around the world are rethinking their production lines and rebuilding themselves. It is also forcing suppliers to work differently.
Adapting to the service economy on demand
Outdated is the twentieth century approach of producing limited series of cars on separate production lines. Automakers are now producing plug-in hybrid, electric, automated models. There is a variety of parameters that can be customized to the needs of a particular consumer.
How to become an automotive software engineer?
Free trial period. The fact is that it will take six months or even a year of study to master the profession. And you need to understand as early as possible whether this is yours or not. Should you invest your time and even money. During this period, it is necessary to master 2-3 technologies of real programming. But they shouldn’t take a long time to master. On the other hand, they must be in demand by the market so that even those couple of weeks or a month spent on them are not wasted.
Why has RFID technology become so important to the automotive industry?
The Internet of Things and, in particular, radio frequency identification (RFID) are key technologies. They help automakers and their suppliers move to a new type of production. RFID technology has significant advantages over previous generations of identification technologies. It is ideal for new industrial environments.
First, RFID tags are long-lasting and almost always read accurately. This is important in an automated manufacturing environment. There the wrong component can lead to production downtime and increased costs with every minute of downtime.
Second, RFID tags do not need to be in the line of sight to read them. It also doesn’t need a light source. This is a big advantage over previous generation technologies such as barcodes. Using a reader, you can find out what is in the box without opening it, or find a specific item among hundreds of others. Digital control of vehicle assembly allows employees to make the right decisions, based on real-time data about what has been done and what needs to be done.
Third, and most importantly, RFID tags are suitable for large-area objects. You can integrate data with back-end systems to accurately locate parts. And you can turn parts of your enterprise into IoT segments. The contents of the boxes are determined upon receipt and the parts are immediately sent to the correct storage area without employee intervention. Any part can be quickly found and delivered to the desired location. In this case, the likelihood of losing or confusing a part is significantly reduced.
The future has already arrived
The expansion of the model range can lead to a decrease in the efficiency of series production. And this will inevitably affect the availability of cars. Professionals of fireart.studio know everything about this question.
The market needs flexible, adaptable production and supply systems. They, unlike traditional production lines, can be combined with each other. However, will this override the advantages of mass production in terms of price and performance?
RFID technology can be a solution to the problem. It can be used to turn traditional mechanical elements and operations into digital ones. The move to digital RFID technology and the use of robotic systems will enable vehicle, equipment, and component manufacturers to adapt to market changes and individual consumer needs. While also is reduced downtime and waste.
To achieve these results, automakers and suppliers need to start implementing new technologies. Read more awesome articles on The Tech Diary.