M2M as a concept is also a general term referring to all technologies that can reinforce the communicating and networking capacity of machines and equipment. Many of the communications between human beings are also realized by use of machines, for instance, realizing the communications between human beings through the communications between such machines and equipment like cell phones, telephones, computers, and electrographs. Technologies of another category are specially designed for machines to set up their communications. For example, many intelligent apparatuses and instruments are equipped with RS-232 interfaces and GPIB communication interfaces; thus, the capacity to conduct communications between apparatuses and between apparatuses and computers has been strengthened. As technologies develop, more and more equipment have been provided with communicating and networking capacities; thus, to network everything is gradually coming true. Communications between people need interfaces that are more visual and more exquisite and more abundant multimedia contents while what the communications of M2M need more earnestly is a unified and normative communicating interface and standardized transmission contents.
The appearance and development of communicating and networking technologies have brought extreme changes for social life. People can communicate with one another more quickly and more conveniently, and the communications of information become smoother. Nevertheless, for the moment, only computers and other certain information technology equipment are provided with such communicating and networking capacities. Numerous common machines and equipment like household appliances, vehicles, automatic vending machines, and facilities in factories are hardly provided with networking and communicating capacities. The objective of M2M technology is to get all machines and equipment provided with networking and communicating capacities and its core conception is to network everything. The M2M technology, which is of very important significance and has a vast market and extensive applications, is driving a new round of transformation for social production and living style.
M2M technologies which combine sensors and applications that leverage the power of the available wireless (GSM/CDMA) networks to help machines communicate with each other are driving the evolution of smart metering concepts across the world. M2M technologies are not helping utilities become economically more viable but are also making consumers aware of conservation techniques that could help bring down their energy costs.
The Machine-to-Machine (M2M) applications will create many new automated services. These services will be much more important to business and to the evolution of our economy. – than today’s cumbersome services. The value of future products will require manufacturers to outfit their products with intelligence and connectivity. This product OEM activity has begun, and will continue to increase exponentially.
These people are not just about people communicating with people or machine communicating with machines: it also includes people communicating with machines, and machines communicating with people. The internet’s most profound potential lies in the integration of smart machines and people – its ability to connect billions of smart sensors, devices and ordinary products into a “digital nervous system” that will smoothly interact with individuals.
M2M is a driver of efficiency: In the near future M2M technologies will transform our world, enabling sustained economic growth.M2M connectivity fundamentally changes the daily experience of people, how we interact with the world around us, from the equipment within our homes and workplaces to the planes we fly and the ways we get to work.
The M2M industry offers a sustained growth across the entire ecosystem of companies that design and build the hardware, software, and applications required by M2M systems. The value proposition for the customer is compelling as the communication and processing of data at speeds and rates that were until recently impossible allows us to save energy in homes and factories to make transportation and logistical systems perform more efficiently there by avoiding human error in dozens of technical applications.