Embedded systems, from smartphones and innovative appliances to industrial machinery and automotive systems, are omnipresent, working tirelessly behind the scenes to provide functionality and intelligence. This blog will delve into the fascinating world of embedded systems, focusing on integrating green technology in electronics and energy harvesting.
Embedded systems are specialised computing systems designed to perform specific tasks within larger electronic devices or machinery. Unlike general-purpose computers, embedded systems are typically dedicated to a single function or set of functions, often operating in real time with strict constraints on size, power consumption, and performance.
These systems comprise hardware and software components, including microcontrollers, sensors, actuators, and communication interfaces. Embedded software, also known as firmware, is responsible for controlling the behaviour of the hardware and executing the desired functionality.
With growing concerns about environmental sustainability, integrating green technology in electronics has become increasingly important. Green computing, which focuses on designing, manufacturing, and using computers and electronic devices in an environmentally friendly manner, is a crucial aspect of this movement.
In embedded systems, green technology encompasses various strategies to minimise energy consumption, reduce environmental impact, and promote sustainability. This includes using energy-efficient components, power management techniques, and renewable energy sources.
For those interested in pursuing advanced studies in renewable energy and its applications in embedded systems, an M.Tech in Renewable Energy Engineering and Management offers an ideal pathway. This specialised program provides students with a comprehensive understanding of renewable energy technologies, energy management strategies, and their integration into various engineering applications.
M.Tech in Renewable Energy Engineering colleges offer a rigorous curriculum that covers topics such as solar energy, wind power, biomass conversion, energy storage systems, and energy policy. Students gain hands-on experience through laboratory work, research projects, and industry collaborations, preparing them for careers in renewable energy development, consulting, and management.
Energy harvesting is a promising technology that enables embedded systems to generate electrical power from their surrounding environment. Embedded systems can operate autonomously and extend their battery life by harnessing energy from solar radiation, vibration, thermal gradients, and radiofrequency signals.
Incorporating energy harvesting capabilities into embedded systems opens up new possibilities for sustainable and self-sufficient applications. For example, wireless sensor networks deployed in remote locations can benefit from energy harvesting to eliminate the need for frequent battery replacements, reducing maintenance costs and environmental impact.
Embedded systems are vital in powering modern electronic devices and machinery, offering efficiency, intelligence, and functionality. Embedded systems can become more sustainable, environmentally friendly, and energy-efficient by embracing green technology and energy harvesting techniques.
As the field of renewable energy continues to expand, M.Tech programs in Renewable Energy Engineering and Management provide aspiring engineers with the knowledge and skills to drive innovation in embedded systems and contribute to a greener future. With technological advancements and a commitment to sustainability, embedded systems will continue to evolve, shaping how we interact with the world around us.
Students can pursue an M.Tech in Embedded Systems from Dayananda Sagar University (DSU) - School of Engineering. Dayananda Sagar University has partnered with ETAS, a BOSCH company, to bring German engineering and automotive technology to students in India. DSU is setting up a state-of-the-art Automotive Embedded Systems lab for cutting-edge M.Tech programs with support from ETAS BOSCH.
M.Tech - Embedded Systems programme offers courses that allow learners to gain and apply knowledge of various Embedded Systems and design fault-tolerant, Safety Critical systems for real-time processing.
The M.Tech program at DSU prepares students to become leaders in a knowledge-driven profession. The following M.Tech programs at DSU have been developed with a philosophy of covering the breadth of domain areas and providing an opportunity for students to specialise in one of the cutting-edge technologies that are driving the next wave of innovation and growth. Specialisation helps candidates acquire the requisite skills and development experience to ensure a journey of accelerated growth in technology leadership. Core subjects give an advanced foundation; the electives provide a broad scope to specialise in Embedded Systems.
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