How DEP helps with IoT Disruptions
Detroit Engineered Products and handling effective disruptions are synonymous. This company with offices in India, China, Europe, Korea, and Japan are famous for their Product Development and Engineering Solutions. Their two decades of service to satisfied clients is across various sectors like aerospace, automotive, Biomed, defense energy, consumer products, heavy equipment, and oil & gas. Their transformed and fast process in IoT disruptive product development has resulted in many value-based benefits to client issues in heavy engineering using their DEP MeshWorks proprietary-software-platform.
The evolving technologies of IoT mean innovative rapid disruption of enterprises and before deploying and planning for such disruptions most enterprises think it is crucial to understand the underlying factors. Namely,
- How will they impact the current initiatives of IoT.
- When the disruption will affect traditional technology business areas.
- Will the IoT bring in operational efficiency and drive digital appreciation and new business.
DEP’s engineering passion has resulted in the development of a unique software platform that is proprietary. The platform handles the electronic design parametrization of CAE models, CAD morphing, and CAE/CAD model generation. The DEP MeshWorks platform enables the optimization and rapid advanced- meshing in the process of CAE driven product development. The DEP MeshWorks platform has created innovative solutions for very quick time to market of the products and has significantly accelerated the process of product development at IoT influenced disrupts.
DEP excels in technical publications, authoring, illustrations, interactive manuals covering electronic or technical specifications, and value engineering of solutions for clients based on their individual special needs and stringent specifications. DEP are market leaders of innovative solutions in software like the DEP MeshWorks platform and in hardware like the Micro Trailer and In-Cylinder Sensor used widely in the automotive and heavy engineering sectors.