Embedded systems are not a new commodity in modern society; they are found in a variety of common household products and everyday electronics, including cell phones, printers, and more. Additionally, these systems are usually intended for a specific, singular role, making them ideal for mass production and engineers. However, ruggedized embedded systems have become a highly sought after source of strength and production.
With low costs and high resistance, these embedded systems can be found in military settings, medical rooms, laboratories, and more, becoming helpful and essential to the process. Even so, a software engineer in his own home could find advantage in a ruggedized embedded system amidst a ready-made computer board complete with the necessary components to create a computerized system is a much more cost effective route to obtaining an integrated system still highly capable of software development. Though embedded systems are defined primarily by their focus on a single task, these embedded systems can be implemented with other circuits and designs to become another powerful piece of technology.
Further, ruggedized embedded systems, as the term ruggedized suggests, are designed to be highly tolerant to any surrounding conditions in the environment, and are thus ideal for areas with extreme temperatures, humidity, and more. In places like laboratories where temperatures are kept low and facilities kept sterile, ruggedized embedded systems are all the more ideal where the usual, commercial grade computer system may not be able to function.
With other features to withstand shock and vibrations, these systems become excellent choices for harsher conditions, becoming useful especially in areas of varying climates and even on the battlefield. With various protective options, these ruggedized embedded systems are easy to maneuver and suitable for any work environment, an excellent choice for those searching for an embedded system that is reliable and secure.