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専門性
- Electronics & ASICs
- Connectivity and IoT
- Signal processing
- Digital services innovation
- AI & analytics
- 戦略的アドバイス
Electronics are central to almost every product we develop – they make a device smart, allow it to communicate with other systems or enable it to perform an action.
Electronic engineering has been a core skill since our inception in 1960 and we have been developing ASICs since the late 1980s.
From integrated circuits and embedded systems to power supply and analogue circuitry, our electronic designs push the boundaries of performance, cost, size and efficiency.
We have the world’s largest independent wireless development team. It spans radio frequency, communications protocol, digital signal processing, power-optimised analogue and digital electronic design, embedded software, user experience and mechanical design.
Our consultancy expertise has led to the creation and development of several major wireless technologies and delivered a steady stream of disruptive breakthroughs. They include RF and satellite telecommunications to the world’s first wireless pacemaker and the ground-to-air radio system that controls more than 50% of the world’s air traffic.
Devices containing wireless connectivity, audio, video, measurement sensors or automatic control require digital signal processing (DSP). Extensive knowledge of this is combined with software development and software/hardware integration experience to create next-generation devices.
We are pioneering highly integrated, application-specific programmable processors, enabling the adoption of software-defined radio in wireless, cellular and satellite networks. This includes the use of the low-power MEMS sensor in innovative location, tracking and medical applications.
Our teams research and design signal algorithms using the industry standard tools provided in MathWorks MATLAB. Many of the applications we work on involve significant power constraints, adding another dimension to algorithm and processing hardware design. By applying signal conditioning we can enhance audio and improve signal quality.
If you want to transform your physical product business through digital, or you’re an existing service provider looking to deliver a radical experience to accelerate growth in a new market, we can help.
From platform selection to building the technology and integrating it with existing processes and systems, we know what it takes to develop successful digital platforms that span the physical and digital worlds.
We have expertise in digital security, AI, UX, and full-service development including the go-to-market strategy, launch plan and ongoing scaling and operations.
CC has a deep understanding of AI and its applications, including Bayesian inference, real-time signal processing and data analysis combined with extensive technical skills in areas such as predictive analytics, deep learning, edge AI and empathetic AI.
We are pushing the boundaries of the human-machine interface to develop edge AI use cases, generative AI models, new supervised machine learning models and types of data analytics.
Our work is unlocking new frontiers in areas such as uncrewed aerial vehicles, synthetic biology, remote monitoring systems, telecoms and beyond.
Markets and technologies evolve rapidly and unpredictably. Very few companies can afford to develop all relevant technologies, so tough choices need to be made. We help identify opportunities to ‘build, borrow or buy’ new technologies in anticipation of market requirements.
Business transformation is typically driven by a combination of internal, industry-related, and external factors, often rooted in technology. And whilst technology-based disruption is nothing new, the speed at which new offerings have built scale has been unprecedented.
The expertise we employ as technology strategy consultants has been in existence at Cambridge Consultants for decades. Because our consultants are engineers and scientists with deep technical insight, they can identify golden opportunities and recommend an innovation portfolio or technology roadmap.
We ensure that not only is the technology is understood but that the business model, market offerings and operations are all set up for success.
事例
施設
Electronic productionCC’s flexible, responsive and agile manufacturing facilities are ideally suited to electronic and electromechanical product builds, enabling us to rapidly build short product runs to an extremely high quality. We can build our own printed circuit board assemblies using industrial representative equipment to ensure manufacturability during design. Having our own in-house facility is also extremely helpful in development, driving out DfX activities in eCAD and feeding test results back into the design process from an early stage. |
EMC test chamberOur fully-shielded ETS-Lindgren anechoic test chamber is suitable for a wide range of EMC and RF testing, which is essential for new devices. It allows us to test for unwanted radiation and susceptibility to interference at an early stage with the results fed directly into product design, rather than later on when changes will be expensive to implement. |
Anechoic test chamberOur custom anechoic radio and antenna test chamber is a highly sophisticated 5m cube. Inside, we carry out automated 3D measurements and visualisation of wireless device behaviour and test body-worn technology using body phantoms or real live test subjects to optimise real-word RF performance of products such as smart implants (including implanted telemetry), connected drug delivery devices and wearables. Our anechoic test chamber is available as a standalone service for industry and academic research. Explore the facility and find out how you can access this state-of-the-art service. |
AI infrastructureCC’s comprehensive onsite compute infrastructure allows us to explore options and train and test models more rapidly to get better results. We run petaflop-scale, containerised compute on site, with multiple NVIDIA DGX-1 deep learning supercomputers and other GPU and FPGA-accelerated servers. This links to petabyte-scale local NetApp storage, project-specific cloud and our continuous integration systems. |