![]() ![]() To enable exploration, optimization, and end-to-end evaluation on different embedded platforms, system designers critically need a benchmark suite that enables flexible and seamless configuration of self-driving scenarios, which realistically reflects real-world self-driving workloads’ unique characteristics. ![]() Self-driving systems execute an ensemble of different self-driving workloads on embedded systems in an end-to-end manner, subject to functional and performance requirements. Overall, FabHandWear offers the freedom to create customized, functional, and manufacturable hand wearables. We validate our system by using illustrative applications, a durability test, and an empirical user evaluation. FabHandWear is designed to work with off-the-shelf electronics, with the ability to connect them automatically and generate a printable pattern for fabrication. We introduce FabHandWear, a novel system that allows end-to-end design and fabrication of customized functional self-contained hand wearables. We envision an emerging generation of customizable hand wearables that supports hand differences and promotes hand exploration with additional functionality. There are no specialized tools that facilitate the creation of customized hand wearables for varying hand sizes and provide different functionalities. Current wearables usually fit multiple functions and are designed for a universal user with none or limited customization. Moreover, there are different functions that the users can be looking for some may only want to detect hand's motion or orientation others may be interested in tracking their vital signs. The main barrier in customizing hand wearables is the geometric complexity and size variation in hands. Current hand wearables have limited customizability, they are loose-fit to an individual's hand and lack comfort. ![]()
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