| Learning to live in a smart home |
29 |
| What is wrong with energy efficiency? |
27 |
| Is activity-based working impacting health, work performance and perceptions? A systematic review |
20 |
| Performance gaps in energy consumption: household groups and building characteristics |
17 |
| Indoor environmental quality and occupant satisfaction in green-certified buildings |
16 |
| Conceptual approaches to wellbeing in buildings: a scoping review |
14 |
| How building design and technologies influence heat-related habits |
14 |
| Socio-technical case study method in building performance evaluation |
14 |
| Life cycle assessment of a Danish office building designed for disassembly |
12 |
| Healing built-environment effects on health outcomes: environment-occupant-health framework |
12 |
| Designing activity-based workspaces: satisfaction, productivity and physical activity |
10 |
| Post-occupancy evaluation in architecture: experiences and perspectives from UK practice |
10 |
| Developing English domestic occupancy profiles |
10 |
| First evidence for the reliability of building co-heating tests |
9 |
| Analysing user preferences for co-working space characteristics |
9 |
| The role of social sustainability in building assessment |
9 |
| Householders co-managing energy systems: space for collaboration? |
9 |
| Materialities shape practices and notions of comfort in everyday life |
9 |
| Assessing the environmental performance of buildings: trends, lessons and tensions |
8 |
| Text-mining building maintenance work orders for component fault frequency |
8 |
| Beyond feedback: introducing the engagement gap' in organizational energy management |
7 |
| Participatory system dynamics modelling for housing, energy and wellbeing interactions |
7 |
| A cluster analysis of energy-consuming activities in everyday life |
7 |
| Effect of green building certification on organizational productivity metrics |
7 |
| What next for energy-related building regulations?: the occupancy phase |
6 |
| Embedding building performance evaluation in UK architectural practice and beyond |
6 |
| Materials in Germany's domestic building stock: calculation model and uncertainties |
6 |
| Sustainability assessment of cities: SDGs and GHG emissions |
6 |
| Protection value and functional service life of heritage timber buildings |
6 |
| Domestic demand-side response with heat pumps: controls and tariffs |
6 |
| Designing trust: how strategic intermediaries choreograph homeowners' low-carbon retrofit experience |
6 |
| A socio-technical system framework for risk-informed performance-based building regulation |
5 |
| Policy implications for the performance gap of low-carbon building technologies |
5 |
| Quantifying the impact of building envelope condition on energy use |
5 |
| Does data visualization affect users' understanding of electricity consumption? |
5 |
| Exploring innovative community and household energy feedback approaches |
5 |
| Mental model interface design: putting users in control of home heating |
5 |
| Impacts of energy-efficiency investments on internal conditions in low-income households |
5 |
| Serviceability of facade claddings |
5 |
| Natural ventilation in cities: the implications of fluid mechanics |
5 |
| Managing professional jurisdiction and domestic energy use |
5 |
| From the design of green buildings to resilience management of building stocks |
5 |
| Towards an understanding of residential electricity consumption in India |
4 |
| Designing an optimal' domestic retrofit programme |
4 |
| Application of adaptive thermal comfort methods for Iranian schoolchildren |
4 |
| Integrated framework of home comfort: relaxation, companionship and control |
4 |
| LCA benchmarks for residential buildings in Northern Italy and Denmark - learnings from comparing two different contexts |
4 |
| Towards occupant-centric simulation-aided building design: a case study |
4 |
| Comparative emission analysis of low-energy and zero-emission buildings |
4 |
| Economic effects of regulating the seismic strengthening of older buildings |
4 |
