Abstract Traditional medical monitoring devices have some significant limitations for requirements of the aging society because of their complex wires. In order to solve these problems, a remote healthcare system is designed and implemented in this paper. This system consists of a BSN (Body Sensor Network), wireless gateways and a remote database. The BSN is used to expand the mobility of the monitoring devices. The PC-based home gateway is used to receive and display the data from sensors and transmit them to the remote database. In order to expand the mobility of the gateways, An Android based mobile phone is selected as a mobile gateway. At last, a simple web access is provided for the remote healthcare.

A decision-making model was constructed to assist remote Australian Indigenous communities select appropriate climate change mitigation programs. The Resilient Community and Livelihood Asset Integration Model (ReCLAIM) comprises six steps that focus on community assets and aspirations. The second of these steps is to determine the baseline carbon profiles of communities based on six sources of carbon emissions: materials, construction processes, stationary energy, transport, water systems and waste. The methodology employed an annualised lifecycle analysis of housing materials and construction, and an annual inventory of other emission sources. Profiles were calculated for two remote communities and compared to the Australian average and also average electricity consumption by remote communities in the Northern Territory. The results, expressed in tonnes of carbon dioxide equivalent (tCO2-e), showed that average household carbon profiles of the two communities (6.3 and 4.1 tCO2-e/capita/yr) were generally lower than the Australian average (7.3 tCO2-e/capita/yr). The stationary energy results revealed that infrastructure and building design could raise fuel consumption and costs, and therefore carbon emissions, despite modest lifestyles. The carbon emission categories differed between the two communities highlighting the need for an individualised approach to understanding the drivers of carbon emissions and mitigation responses.