Home automation takes the mundane, day-to-day activities involved in managing your home and leaves them to a computer, freeing you up to kick back and relax. Once a staple of science fiction fantasies and luxury homes, over the past decade home automation has become a realistic option for the average American homeowner. With this in mind, the home-automation experts at SafeWise have put together an interactive home tour, brief history, explanation of common features, and projection of future trends unique to today’s home automation systems. Hover on the image to learn more about home automation.
The Neato Botvac D7 Connected is smarter than your average robot vacuum. In addition to laser navigation, it features interactive cleaning maps, a simple and intuitive app, and class-leading integration with third-party smart home devices and services. When you add in excellent battery life and cleaning performance, the D7 justifies its hefty $799 price.
Outlet Controls Outlet controls allow you to integrate any of your home’s older, “dumb” lights or appliances into a new automation system. Turn lights on and off remotely. Manage smaller, window-style air conditioner units. Monitor the amount of energy these appliances use, so you’ll know whether it makes sense to upgrade to more energy efficient models.
An image-based automated functional testing tool that enables testers to interact with AUT the same way end users do. TestPlant eggPlant is completely different from traditional testing tools in its approach: modeling user’s point of view rather instead of the test scripts view often seen by testers. This allows testers with less programming skills to learn and apply test automation intuitively. The tool supports various platforms like Web, mobile, and POS systems. It offers lab management and CI integration as well.
An early development of sequential control was relay logic, by which electrical relays engage electrical contacts which either start or interrupt power to a device. Relays were first used in telegraph networks before being developed for controlling other devices, such as when starting and stopping industrial-sized electric motors or opening and closing solenoid valves. Using relays for control purposes allowed event-driven control, where actions could be triggered out of sequence, in response to external events. These were more flexible in their response than the rigid single-sequence cam timers. More complicated examples involved maintaining safe sequences for devices such as swing bridge controls, where a lock bolt needed to be disengaged before the bridge could be moved, and the lock bolt could not be released until the safety gates had already been closed.