CEMWorks Advances to Second Phase of Innovated Solutions Canada Program
July 10, 2019, marks a special accomplishment for CEMWorks. Today, it was announced that our company successfully proceeded toward the second phase of the Innovated Solutions Canada Program. Last year, the CEMWorks team was excited to work on the first phase of the project devoted to the design of connected vehicles inside smart cities. At the end […]
EMC 2019 Presentation on the Simulation of Vehicles with Deployed Frequency Selective Surfaces
This year, Anton Menshov, CEMWorks R&D Engineer, is going to present a paper “Rigorous Numerical Electromagnetic Compatibility Modeling of Connected Vehicles with Deployed Frequency Selective Surfaces” at the 2019 IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity (EMC+SIPI 2019). The conference will take place in New Orleans, Louisiana, July 22–26, 2019. The paper […]
CEMWorks Engineer is #1 contributor to Computational Science SE in 2018!
Promoting research and computational sciences is one of the goals that CEMWorks determined for its mission statement. On a daily basis, CEMWorks’ team uses StackOverflow, Computational Science SE, and many other StackExchange websites to find answers on the technical and research questions. However, we believe that we also have a responsibility to produce free content […]
CEMWorks Wins Phase I of the “Connected Vehicles” Challenge from the Canadian Government
On August 31, 2018, the Canadian government announced an investment in CEMWorks Inc. through Innovative Solutions Canada program. CEMWorks Inc. proposed a comprehensive electromagnetic simulation platform as an answer to the “Connected Vehicles” challenge. This solution will enable large-scale accurate simulations of smart vehicles equipped with frequency selective engineered surfaces (FSES). Currently, such simulations present […]
ECS Brokerage 2020
Earlier this month, we had an exceptional opportunity to attend ECS Brokerage 2020 in Brussels, Belgium. While in attendance, we networked with R&D managers from across Europe. We are grateful to Kasturi Narayanan of the National Research Council Canada, and the Trade Commissioner Service Team for organizing Canada’s participation at this event, and for their continuing […]
Dynamic Environmental Simulation
As our technological capabilities grow, so does our ability to model, predict, and interact with the natural and built environments around us. Among the most transformative of these capabilities is Dynamic Environmental Simulation—a field that brings together physics-based modeling
Automotive
The automotive industry is undergoing one of the most profound transformations in its history. Electrification, connectivity, automation, and sustainability are redefining what it means to design, manufacture, and operate vehicles. Central to this evolution is a powerful, often unseen force: dynamic environmental simulation.
As cars become more intelligent and autonomous,
Aerospace
In the high-stakes world of aerospace and defence, precision, preparedness, and adaptability are paramount. Success—or failure—often hinges on the ability to predict how systems will perform under complex, unpredictable, and rapidly evolving conditions. From battlefield awareness to spacecraft trajectory planning, dynamic environmental simulation is emerging as a critical capability, enabling engineers, strategists, and operators to anticipate reality—before it unfolds.
At its core, dynamic environmental simulation is about modeling real-world conditions in motion.
Metasurfaces & Reconfigurable Intelligent Surfaces
In the fast-evolving landscape of wireless communication, the spotlight is shifting from traditional hardware to intelligent environments. Two of the most promising technologies leading this revolution are Metasurfaces and Reconfigurable Intelligent Surfaces (RIS). These novel structures are set to reshape how electromagnetic waves behave — quite literally.
But what exactly are these technologies, and why are they so crucial for the future of 6G, IoT, and smart environments?
5G/6G Connectivity and Radar Applications
As the world continues to embrace digital transformation, the lines between communication and sensing technologies are becoming increasingly blurred. Nowhere is this more evident than in the evolution of wireless networks, particularly in the realms of 5G and the upcoming 6G. These next-generation connectivity standards are not just about faster internet speeds or lower latency—they are laying the foundation for a future where wireless communication systems double as high-precision radar and sensing platforms.