Читать книгу Spatial Multidimensional Cooperative Transmission Theories And Key Technologies - Lin Bai - Страница 5

The development of mobile communication technology has witnessed mainly four generations so far. The first generation of mobile terminals that appeared in 1995 could only be used for voice communication. And the second generation of mobile terminals that were in use between 1996 and 1997 appeared with the addition of data transmitting and receiving functions, such as sending and receiving e-mails or web browsing. With the rapid development of communication and computer technology, Internet access service was introduced from the third generation of mobile communication, and then the mobile communication service entered a rapid development period of mobile Internet dominated by data services. Furthermore, the fourth generation of mobile communication reflected the demand for Internet-like communication services based on high-speed data streams. CCID data showed that by June 2012, the number of mobile Internet users had exceeded the number of computer users for the first time. Mobile Internet is changing the social interaction lifestyle of people as never before, and it has become one of the necessary means for modern human information interaction.

Faced with the growing demand for broadband communication and the rapid development of mobile Internet industry, how to realize large-capacity data transmission at anytime and anywhere has become an important issue in wireless communication. According to Shannon’s theory, the demand for wireless spectrum resources has also increased correspondingly, thus leading to the shortage of spectrum resources suitable for wireless communication. It has become the main bottleneck restricting the development of wireless communication. From the first generation to the third generation, the core technologies of mobile communication are FDMA, TDMA, and CDMA, respectively, which use resources such as frequency, time, and code element to improve the spectrum efficiency of the system. When people try to take full use of time, frequency, and code resources to improve spectrum utilization, the rational use of space resources and the development of the corresponding multi-antenna technology will become the core issues and key technologies of mobile communication in the future.

At the same time, with the continuous improvement of aerospace technology and the rapid growth of the types and quantities of space-based and air-based platforms, the space–air–ground-integrated information network consisting of satellites, stratospheric balloons and various aerospace vehicles is developing rapidly. The resulting space–air–ground-integrated mobile Internet will become an information bridge for human beings to understand space, enter space, use space, and develop space in the future. The rational use of the multi-antenna technology to realize efficient spatial multidimensional signal cooperative transmission is the premise of healthy development of the future space–air–ground-integrated mobile Internet and also provides theoretical basis and technical support for its development. Based on the principle of spatial multidimensional signal transmission and multi-antenna system, this book, respectively, introduces how to maximize the use of spatial dimension resources to improve system performance and spectral efficiency in ground-based, air-based, and space-based cooperative transmission systems.

In the first chapter, the book outlines the history of mobile communication and the characteristics of ground-based, air-based, and space-based cooperative communication systems. And then in the first part, the multi-antenna system and the key technologies of signal transmission and reception are discussed. Focusing on these issues, the vector space and multi-antenna system, adaptive system, MIMO multi-antenna system, and spatial multidimensional signal reception and iterative processing technologies are introduced in Chapters 2–5. Based on the above theories and technologies, the application and the corresponding key technologies of spatial multidimensional cooperative transmission in ground-based, air-based, and space-based communication systems are introduced in Chapters 6–8 of the second part.

Our team has worked on the research of space–air–ground-integrated transmission for many years and has undertaken many national-level scientific research projects. We have relevant foundations both in theory and engineering practice. The content of this book is taken from the results of many years of our research, and the principles and methods are expounded by combining theory with engineering practice. This book provides a step-by-step elaboration of the theories, which is very suitable for college graduates with a certain level of professional foundation as well as for researchers and engineers in research institutions.

Based on the principle of multidimensional signal transmission and multi-antenna system, this book provides suggestions on how to maximize the use of spatial dimension resources to improve system performance and spectrum efficiency in ground-based, air-based, and space-based cooperative transmission systems. The main contents of this book include basic theories and key technologies such as adaptive antenna system, spatial multidimensional signal transmission and reception, multi-antenna design, and iterative signal processing in a MIMO multi-antenna system. Based on the above theories and technologies, this book also presents the characteristics and applications of spatial multidimensional cooperative transmission in ground-based, air-based, and space-based communication systems from the perspective of practical application.

The book is rich in content and clear in structure. It is a technical book with emphasis on both theory and practice. It can be used as a postgraduate textbook for the major of mobile Internet communication and serve as a handbook also suitable for researchers engaged in related fields.