15 research outputs found
Sparse Array Design via Fractal Geometries
Sparse sensor arrays have attracted considerable attention in various fields
such as radar, array processing, ultrasound imaging and communications. In the
context of correlation-based processing, such arrays enable to resolve more
uncorrelated sources than physical sensors. This property of sparse arrays
stems from the size of their difference coarrays, defined as the differences of
element locations. Thus, the design of sparse arrays with large difference
coarrays is of great interest. In addition, other array properties such as
symmetry, robustness and array economy are important in different applications.
Numerous studies have proposed diverse sparse geometries, focusing on certain
properties while lacking others. Incorporating multiple properties into the
design task leads to combinatorial problems which are generally NP-hard. For
small arrays these optimization problems can be solved by brute force, however,
in large scale they become intractable. In this paper, we propose a scalable
systematic way to design large sparse arrays considering multiple properties.
To that end, we introduce a fractal array design in which a generator array is
recursively expanded according to its difference coarray. Our main result
states that for an appropriate choice of the generator such fractal arrays
exhibit large difference coarrays. Furthermore, we show that the fractal arrays
inherit their properties from their generators. Thus, a small generator can be
optimized according to desired requirements and then expanded to create a
fractal array which meets the same criteria. This approach paves the way to
efficient design of large arrays of hundreds or thousands of elements with
specific properties.Comment: 16 pages, 9 figures, 1 Tabl
Antenna Systems
This book offers an up-to-date and comprehensive review of modern antenna systems and their applications in the fields of contemporary wireless systems. It constitutes a useful resource of new material, including stochastic versus ray tracing wireless channel modeling for 5G and V2X applications and implantable devices. Chapters discuss modern metalens antennas in microwaves, terahertz, and optical domain. Moreover, the book presents new material on antenna arrays for 5G massive MIMO beamforming. Finally, it discusses new methods, devices, and technologies to enhance the performance of antenna systems
Inspection by ultrasonic tomography (UT) leading trend in welding joint monitoring
Welding work is a connection process between the structure and the materials. This process is used in the construction, maintenance and repair especially mechanical engineering. This study discusses the type of welding used in the industry, mainly involving the pipeline welds. On-demand need to every work process when finishing weld requires quality tests to ensure compliance to the standards required. Monitoring through the display image has long been used in Non-Destructive Testing (NDT). Various methods of monitoring used in NDT focused on Ultrasonic Tomography (UT) as a method used in NDT and as an option for the future. Previous imaging result was in two-dimensional (2D) and then upgraded to a three-dimensional image (3D). Besides, there is potential of 3D imaging beyond the existing limits in terms of size, material thickness, especially for welding steel pipes. Achievement through research of existing pipe size so far outside diameter of 200 mm and a thickness of 5.8 mm should be limited in view of the obstacles to enhanced image resolution is less effective when compared to other tomography methods
Software for Exascale Computing - SPPEXA 2016-2019
This open access book summarizes the research done and results obtained in the second funding phase of the Priority Program 1648 "Software for Exascale Computing" (SPPEXA) of the German Research Foundation (DFG) presented at the SPPEXA Symposium in Dresden during October 21-23, 2019. In that respect, it both represents a continuation of Vol. 113 in Springer’s series Lecture Notes in Computational Science and Engineering, the corresponding report of SPPEXA’s first funding phase, and provides an overview of SPPEXA’s contributions towards exascale computing in today's sumpercomputer technology. The individual chapters address one or more of the research directions (1) computational algorithms, (2) system software, (3) application software, (4) data management and exploration, (5) programming, and (6) software tools. The book has an interdisciplinary appeal: scholars from computational sub-fields in computer science, mathematics, physics, or engineering will find it of particular interest
Sensor Signal and Information Processing II
In the current age of information explosion, newly invented technological sensors and software are now tightly integrated with our everyday lives. Many sensor processing algorithms have incorporated some forms of computational intelligence as part of their core framework in problem solving. These algorithms have the capacity to generalize and discover knowledge for themselves and learn new information whenever unseen data are captured. The primary aim of sensor processing is to develop techniques to interpret, understand, and act on information contained in the data. The interest of this book is in developing intelligent signal processing in order to pave the way for smart sensors. This involves mathematical advancement of nonlinear signal processing theory and its applications that extend far beyond traditional techniques. It bridges the boundary between theory and application, developing novel theoretically inspired methodologies targeting both longstanding and emergent signal processing applications. The topic ranges from phishing detection to integration of terrestrial laser scanning, and from fault diagnosis to bio-inspiring filtering. The book will appeal to established practitioners, along with researchers and students in the emerging field of smart sensors processing