We at MathWorks believe in the importance of engineers and scientists.They increase human knowledge and profoundly improve our standard of living.
We created MATLAB and Simulink to help them do their best work.
We at MathWorks believe in the importance of engineers and scientists.They increase human knowledge and profoundly improve our standard of living. We created MATLAB and Simulink to help them do their best work.
MATLAB® is the easiest and most productive computing environment for engineers and scientists. With math, graphics, and programming, it’s designed for the way you think and the work you do.
Simulink® is a block diagram environment for simulation and Model-Based Design of multidomain and embedded engineering systems. Explore, test, and implement designs you wouldn’t otherwise consider – in a fraction of the time it would take you to write C, C++, or HDL code.
Houman Zarrinkoub, principal wireless product manager at MathWorks, discusses some of the challenges facing RF designers as they work to add new dimensions to "ubiquitous connectivity...
This video series details the issues that RF/mmWave designers face as they address the millimeter-wave spectrum. Part 3 focuses on analysis of wideband receivers.
This video series details the issues that RF/mmWave designers face as they address the millimeter-wave spectrum. Part 1 focuses on frequency dispersion and interfering signals...
Digitally tunable filters, a mmWave radio development kit, and an active phased-array antenna module will be demonstrated in Otava’s and partners’ booths at IMS.
Software design tools can shave the time and expense of multiple development iterations when striving for a first-round success or when making modifications to improve performance...
By building key components into design kits and application platforms, suppliers give circuit and system designers head starts in getting the most value and performance for their...
In this edition of Algorithms to Antennas, we model a surveillance radar set in a mountainous region where the terrain can occlude both ground vehicles and low-altitude aerial...
Models across the abstraction layers must have consistent results. Here, we will compare results across three abstraction levels, including system-, measurement-, and signal-level...
We have covered a range of specific topics that relate to antenna-array design for 5G systems in a number of past blogs. Here we connect these topics to published specifications...
This blog drills further into the discussion of applying deep learning to wireless and radar apps by exploring how channel estimation is performed in 5G systems.
5G infrastructure is growing by leaps and bounds, with more and more capability being added to the system. However, the effectiveness of the solution is strongly based on how ...
Previous blogs on deep learning focused on applying techniques to various radar and communications applications. Here we look at labeling the real-world data gathered from a radar...
Similar techniques to those presented in a previous blog are applied to perform RF fingerprinting to help identify trusted and unknown transmit sources in communications systems...
Examples from the previous blog are built upon in terms of air traffic control. Here, we explore information fusion and ways to generate larger data sets to facilitate architecture...
Microwaves & RF chats with Rick Gentile about the changing technological landscape in the military and aerospace industries, and the systems, tools, and techniques used to help...
The virtual International Microwave Symposium will remain available for visitors through the end of next month, although the active components of the event have gone by. Here ...
This latest blog installment shows how to model a subarray network with different configurations for two specific applications: limited-field-of-view (LFOV) arrays and wideband...
Following up from the previous blog on beamforming algorithms and a development/test framework for beamformers, this installment delves into a related topic on spatial signal ...
Today's benchtop and lab power supplies and loads deliver tons of new features that serve design and development needs from IoT devices to grid simulation.
One way to gain higher throughput in 5G NR systems is to start with a Simulink model—a tool that can perform architectural analysis and multidomain simulation in hybrid-beamforming...
In this Q&A, Rick Gentile from MathWorks discusses his goal for his current blog series along with topics like hybrid beamforming and RF and antenna modeling.
In this blog, we show how you can use learning techniques in cognitive radar, software-defined radio, and efficient spectrum-management applications to effectively identify modulation...
During a time when defense electronics technology is strong, the industry readies itself for the global adoption of 5G and electronically steered vehicles.
How do you fabricate printed-circuit-board antennas with MATLAB and Antenna Toolbox? This blog post presents an example of an antenna design that was built using this process....
As the applications extrapolate for wireless devices and interest grows in millimeter-wave frequencies, the RF/microwave industry gathers together with great optimism for the ...
5G will bring mobility to mmWave communications as the next-gen wireless network attempts to serve more people and even things with a major expansion of mobile services.
Visitors to the RF/microwave industry’s largest conference and exhibition can sample some of the hardware, software, and test-equipment products that are turning 5G and IoT into...
A software platform with multi-domain capabilities can be highly beneficial for next-generation wireless system development that incorporates various technologies.
This technique provides a “two-for-one” design strategy, creating a miniature bandpass filter from a compact lowpass filter with low insertion loss and broad stopband.
Widespread adoption of SDR technology continues throughout many markets as key mixed-signal and digital components improve in performance, even as they shrink in size and power...
A large portion of a small industry is set to show its hardware, software, and test equipment at this year’s IMS exhibition in San Francisco’s Moscone Center.
The exhibition area is open for slightly less than three days, and visitors can easily spend all of their time just scouring the sections of the show floor and the companies devoted...
Packed within a compact AXIe module, this arbitrary waveform generator offers 8-b vertical resolution and as many as four synchronized channels to produce complex modulated signals...
RF integration is reaching an all-time high, as RF components that were previously external to the system processors are finding themselves neighbors with the GPUs and CPUs of...
Software has become an invaluable part of RF/microwave measurements, requiring repetitive actions or calling for a complex series of actions that can be stored in memory.
Design engineers wishing to incorporate software-defined-radio (SDR) technology in their systems can now get a head start, thanks to this radio board and included software tools...
BECAUSE OF MAIN-BEAM SCANNING, assessing the performance of a phased-array antenna usually involves the repeated calculation of its far field. Unfortunately, the time-consuming...
The worlds largest microwave gathering convenes in San Francisco this June with a rich array of technical presentations, new products, and the 67th ARFTG Conference.
The Third Annual Military Electronics Show (MES) promises a strong educational program for engineers and engineering managers tasked with military systems designs.