Fraunhofer Institute for Communication Systems ESK develops smart wireless power outlets

  

A new Internet-enabled power outlet was developed by researchers at the Fraunhofer Institute for Communication Systems ESK in Munich will allow users to control household appliances via their smartphone, and reduce their energy costs into the bargain.

The smart socket was developed in collaboration with the Fraunhofer Institute for Industrial Mathematics ITWM in Kaiserslautern and the industrial partner embedded brains GmbH.

The solution means that soon there will be no need for special timers to switch lighting on and off or operate household appliances when the homeowner is absent. In future, all this can be done by means of a smartphone or PC, thanks to Internet-enabled wireless power outlets that support the new IPv6 Internet protocol.

"We have been able to connect the power outlets wirelessly using the IPv6 protocol," said ESK research engineer Günter Hildebrandt. "All household appliances plugged in one of the sockets can be switched on and off remotely using an IPv6-compatible device such as a smartphone or laptop PC – from anywhere."

The wireless power outlets are a component of the HexaBus home automation system that was developed by the ITWM as part of the mySmartGrid project (http://www.mysmartgrid.de).

"The HexaBus components make the smart home of the future a reality. They enable household appliances to be controlled intelligently, thus optimizing or reducing electricity consumption. For example, the householder can start the washing machine during cheap-rate off-peak hours, or run the dishwasher when the photovoltaic panels on the roof are generating sufficient power," said industrial engineer Mathias Dalheimer of the ITWM, who leads the SmartGrid project and is its chief programmer.

In addition to the wireless power outlets, the HexaBus system employs a specially designed USB stick that plugs into any compatible, off-the-shelf router. The user enters the command to switch on an appliance via a standard web browser or an Android-compatible smartphone app. The router and stick then forward the data to the power outlet. The two-way communication function also allows the wireless power outlet to send data to the smartphone, informing the user how much power various appliances are consuming at any given time. Thus, the user can optimize their power consumption. "The combination of parallel control and measurement functions is an entirely novel feature that no other wireless power outlet has offered before," said Hildebrandt.

Because the HexaBus system is based on the IPv6 data communication protocol, a separate IP address is assigned to each power outlet, and thereby to each connected appliance, enabling them to be accessed directly. But how did the researchers go about integrating Internet functionality in the wireless power outlets and USB sticks?

To do so, Hildebrandt and his team developed special protocol software and an extension to the Contiki operating system that enables it to handle the 6LoWpan (IPv6 over Low power Wireless Personal Area Network) communication protocol. Contiki is an open-source operating system for networked embedded devices such as the microcontrollers incorporated in wireless power outlets and USB sticks. A linked web browser protocol enables users to assign a separate name to each power outlet – such as "washingmachine.basement".

Users have no need to worry about the security of their data – all information is transmitted in encrypted form. To make this possible, the experts modified Contiki to enable it to operate with the AES-128 advanced encryption standard. Wireless control signals are transmitted in the 868-MHz frequency band. "This permits users to remotely control a widely distributed network of appliances. The distance between the power outlet and the router can be as high as 30 meters," explained Hildebrandt.

The HexaBus power outlets are ready for commercial application. Their manufacture has been entrusted to embedded brains GmbH, the industrial partner that was also responsible for the hardware development of the power outlets and USB sticks. Meanwhile, the researchers have a new idea up their sleeves: they want to enhance their system with multihop networking capability. By linking together a series of power outlets, the router will be able to pass messages from one to another, thus extending the range of the communication system – a solution that could be of interest to businesses for their office buildings and industrial sites.

This article originally appeared on EE Times Europe.