This chapter introduces to broadband microwave reflectometry (BMR), which is the expression used in this book to indicate an electromagnetic technique used for monitoring and diagnostics purposes. The adjective broadband emphasizes the fact that the analysis can be carried out over a wide frequency range. A brief survey of the typical applications of BMR is also provided. © 2011 Springer-Verlag Berlin Heidelberg
Clearly the natural transition for NDT science is the use of higher frequencies, namely microwaves. ...
This comprehensive, hands-on review of the most up-to-date techniques in RF and microwave measuremen...
Radar sensors have been widely used to estimate speed and displacement of remote targets. A novel ma...
This chapter introduces to broadband microwave reflectometry (BMR), which is the expression used in ...
In this chapter, the basic approaches of broadband microwave reflectometry are described in detail. ...
In this chapter, the basic concepts behind broadband microwave reflectometry (BMR) are recalled. Fir...
In this chapter, the basic approaches of broadband microwave reflectometry are described in detail. ...
In this chapter, the basic concepts behind broadband microwave reflectometry (BMR) are recalled. Fir...
Reflectometry is a powerful technique that can be effectively employed for a number of practical app...
In this chapter, broadband microwave reflectometry (BMR)-based methods for measuring simultaneously ...
Medicine has the essential profit from microwave technique such as not only a development of new dev...
This chapter focuses on broadband microwave reflectometry (BMR) applications for monitoring water co...
This chapter focuses on broadband microwave reflectometry (BMR) applications for monitoring water co...
Abstract: Microwave photonics (MWP) Technology brings Microwave and optical domains together. Due to...
Abstract—Compact, broadband, and low-cost reflectometry is important for array-based microwave imagi...
Clearly the natural transition for NDT science is the use of higher frequencies, namely microwaves. ...
This comprehensive, hands-on review of the most up-to-date techniques in RF and microwave measuremen...
Radar sensors have been widely used to estimate speed and displacement of remote targets. A novel ma...
This chapter introduces to broadband microwave reflectometry (BMR), which is the expression used in ...
In this chapter, the basic approaches of broadband microwave reflectometry are described in detail. ...
In this chapter, the basic concepts behind broadband microwave reflectometry (BMR) are recalled. Fir...
In this chapter, the basic approaches of broadband microwave reflectometry are described in detail. ...
In this chapter, the basic concepts behind broadband microwave reflectometry (BMR) are recalled. Fir...
Reflectometry is a powerful technique that can be effectively employed for a number of practical app...
In this chapter, broadband microwave reflectometry (BMR)-based methods for measuring simultaneously ...
Medicine has the essential profit from microwave technique such as not only a development of new dev...
This chapter focuses on broadband microwave reflectometry (BMR) applications for monitoring water co...
This chapter focuses on broadband microwave reflectometry (BMR) applications for monitoring water co...
Abstract: Microwave photonics (MWP) Technology brings Microwave and optical domains together. Due to...
Abstract—Compact, broadband, and low-cost reflectometry is important for array-based microwave imagi...
Clearly the natural transition for NDT science is the use of higher frequencies, namely microwaves. ...
This comprehensive, hands-on review of the most up-to-date techniques in RF and microwave measuremen...
Radar sensors have been widely used to estimate speed and displacement of remote targets. A novel ma...