sustainability-logo

Journal Browser

Journal Browser

The Advent of Smart Homes

A special issue of Sustainability (ISSN 2071-1050). This special issue belongs to the section "Energy Sustainability".

Deadline for manuscript submissions: closed (31 January 2018) | Viewed by 78620

Special Issue Editor


E-Mail Website
Guest Editor
Department of Intelligent Energy and Industry, Chung-Ang University, Seoul 06974, Republic of Korea
Interests: smart energy; carbon neutrality; digital platform; AI-based data; digital twins; smart buildings and cities
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

The Smart Home originated from Home Automation, a concept that was on the rise in the late 1980s. Home Automation allowed household appliances to be controlled remotely through On/Off switches, telecommuting through email, and the supply of various contents through cable TV. Since the 2000s, ubiquitously, the concept that people can access networks at any time without locational constraints, appeared and this led to the development towards connecting all home appliances to a communication system, thus, aiming to create a network-oriented smart home environment. However, there were prevalent limitations in providing meaningful value to users and the society at large through home-appliance-oriented Smart Home technology, and the development of Smart Home soon entered a period of stagnation.
More recently, the supply of mobile entities, the improvement of wireless Internet, the emergence of Cloud Services, the sophistication of low-energy high-performance energy technologies, and other forms of convergence technologies based Internet of Things (IoT) have opened a new era for Smart Home technology. IoT-oriented Smart Home aims to collect human-machine interaction, then analyze, predict, and utilize information in solving life problems. Based on this, Smart Home is shifting to Smart Space, a paradigm that solves potential personal and societal problems and further provides new value to the world. There is ongoing various research developments on the subject of Smart Space, and new business models and service platforms are emerging.
Though the development of Smart Homes fluctuates, Smart Home by nature exists in the heart of human life and thus has the potential to be the starting point of solving modern world problems such as pollution, the economical gap between nations, increase in energy costs, global aging, etc. In other words, technologies that increase Smart Home’s sustainability also contribute significantly to the sustainability of environment, culture, economy, and society. Thus, the purpose of the Special Issue is to exchange ideas and thoughts on technologies that enhance Smart Home sustainability from an environmental, cultural, economical, and societal viewpoint, additionally sharing various technologies that can contribute to the shift from Smart Home to Smart Space. We invite you to be apart of this cross-disciplinary experimental and theoretical research on the future of Smart Home.

Keywords

Environmental sustainability
  • Climate change responses of smart homes
  • Indoor air quality and energy management technologies
  • Eco-friendly business and service model for smart home sustainability
Cultural sustainability
  • Appropriate technologies of smart homes for developing countries
  • User-friendly smart home technologies for Information Minority Group
  • Role of cultural context in the acceptance of smart home technologies
Economic sustainability
  • Low cost zero-energy house for smart home sustainability
  • Cost-effective smart home design technologies
  • Economic evaluation of smart home service model
Social sustainability
  • Healthcare and wellness service in smart homes
  • Ecological smart home technologies for solving social problems
  • Safety, privacy, and trust in smart home
Sustainability from smart homes to smart space
  • Retrofit design of smart homes for smart space
  • Internet of things and big data in future smart home
  • Green energy technologies for smart space
  • Valuable service and hyper-connected platform for smart space

Benefits of Publishing in a Special Issue

  • Ease of navigation: Grouping papers by topic helps scholars navigate broad scope journals more efficiently.
  • Greater discoverability: Special Issues support the reach and impact of scientific research. Articles in Special Issues are more discoverable and cited more frequently.
  • Expansion of research network: Special Issues facilitate connections among authors, fostering scientific collaborations.
  • External promotion: Articles in Special Issues are often promoted through the journal's social media, increasing their visibility.
  • e-Book format: Special Issues with more than 10 articles can be published as dedicated e-books, ensuring wide and rapid dissemination.

Further information on MDPI's Special Issue polices can be found here.

Published Papers (10 papers)

Order results
Result details
Select all
Export citation of selected articles as:

Research

Jump to: Review

18 pages, 4082 KiB  
Article
A Sustainable Home Energy Prosumer-Chain Methodology with Energy Tags over the Blockchain
by Lee Won Park, Sanghoon Lee and Hangbae Chang
Sustainability 2018, 10(3), 658; https://doi.org/10.3390/su10030658 - 1 Mar 2018
Cited by 126 | Viewed by 9000
Abstract
In this paper, we aim to provide a power trade system that will promote a sustainable electrical energy transaction ecosystem between prosumers and consumers of smart homes. We suggest a blockchain-based peer-to-peer (P2P) energy transaction platform be implemented to enable efficient electrical energy [...] Read more.
In this paper, we aim to provide a power trade system that will promote a sustainable electrical energy transaction ecosystem between prosumers and consumers of smart homes. We suggest a blockchain-based peer-to-peer (P2P) energy transaction platform be implemented to enable efficient electrical energy transaction between prosumers. We suggest the platform be built on the blockchain, as this technology allows a decentralized and distributed trading system, and allows a more transparent, trustworthy and secure P2P trading environment. We believe that such characteristics of the blockchain are necessary in electrical energy transactions within the smart home environment because the smart home aims to enhance user comfort and security, along with energy conservation and cost-savings. First, we classify the two different types of P2P trade to identify which will best benefit from the use of the suggested blockchain-based P2P energy-transaction platform. Within the two types of P2P trade, that we classify (pure P2P trade and hybrid P2P trade), the hybrid P2P trade will benefit more from a blockchain-based P2P energy-transaction platform. In the blockchain-based P2P energy-transaction platform, a smart contract is embedded in the blockchain and called an energy tag. The energy tag will set conditions for making every future energy transaction more cost-efficient while maintaining the most ideal and high-quality energy selection. With the blockchain-based energy tag in the energy-transaction process, multiple energy resources and home appliances will be democratically connected in order to provide users with high-quality, low-cost energy at all times and locations. In this paper, we provide simulation results that compare the unit price of electrical energy on the suggested platform to the unit price of electrical energy set by currently existing conventional power-generation companies. Additionally, we present simulation results that calculate how long initial investments to create a smart home environment that enables P2P energy transactions will take to be paid back. Based on simulation results, we believe that, in the long run, the suggested blockchain-based P2P energy-transaction platform will create a sustainable energy-transaction environment between consumers and prosumers, and the expanding ecosystem will enable the development of a trusted, sustainable, secure and energy-efficient energy transaction environment. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

15 pages, 2457 KiB  
Article
Zone-Aware Service Platform: A New Concept of Context-Aware Networking and Communications for Smart-Home Sustainability
by Jinsung Byun, Sanguk Park, Keonhee Cho and Sehyun Park
Sustainability 2018, 10(1), 266; https://doi.org/10.3390/su10010266 - 20 Jan 2018
Cited by 2 | Viewed by 4200
Abstract
Recent advances in networking and communications removed the restrictions of time and space in information services. Context-aware service systems can support the predefined services in accordance with user requests regardless of time and space. However, due to their architectural limitations, the recent systems [...] Read more.
Recent advances in networking and communications removed the restrictions of time and space in information services. Context-aware service systems can support the predefined services in accordance with user requests regardless of time and space. However, due to their architectural limitations, the recent systems are not so flexible to provide device-independent services by multiple service providers. Recently, researchers have focused on a new service paradigm characterized by high mobility, service continuity, and green characteristics. In line with these efforts, improved context-aware service platforms have been suggested to make the platform possible to manage the contexts to provide the adaptive services for multi-user and locations. However, this platform can only support limited continuity and mobility. In other words, the existing system cannot support seamless service provision among different service providers with respect to the changes of mobility, situation, device, and network. Furthermore, the existing context-aware service platform is significant reliance on always-on infrastructure, which leads to great amounts of energy consumption inevitably. Therefore, we subsequently propose a new concept of context-aware networking and communications, namely a zone-aware service platform. The proposed platform autonomously reconfigures the infrastructure and maintains a service session interacting with the middleware to support cost- and energy-efficient pervasive services for smart-home sustainability. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

16 pages, 2388 KiB  
Article
Energy Storage System Control Algorithm by Operating Target Power to Improve Energy Sustainability of Smart Home
by Byeongkwan Kang, Kyuhee Jang, Sounghoan Park, Myeong-in Choi and Sehyun Park
Sustainability 2018, 10(1), 236; https://doi.org/10.3390/su10010236 - 17 Jan 2018
Cited by 7 | Viewed by 3895
Abstract
As energy issues are emerging around the world, a variety of smart home technologies aimed at realizing zero energy houses are being introduced. Energy storage system (ESS) for smart home energy independence is increasingly gaining interest. However, limitations exist in that most of [...] Read more.
As energy issues are emerging around the world, a variety of smart home technologies aimed at realizing zero energy houses are being introduced. Energy storage system (ESS) for smart home energy independence is increasingly gaining interest. However, limitations exist in that most of them are controlled according to time schedules or used in conjunction with photovoltaic (PV) generation systems. In consideration of load usage patterns and PV generation of smart home, this study proposes an ESS control algorithm that uses constant energy of energy network while making maximum use of ESS. Constant energy means that the load consumes a certain amount of power under all conditions, which translates to low variability. The proposed algorithm makes a smart home a load of energy network with low uncertainty and complexity. The simulation results show that the optimal ESS operating target power not only makes the smart home use power constantly from the energy network, but also maximizes utilization of the ESS. In addition, since the smart home is a load that uses constant energy, it has the advantage of being able to operate an efficient energy network from the viewpoint of energy providers. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

4272 KiB  
Article
Smart Thermostats: An Experimental Facility to Test Their Capabilities and Savings Potential
by Sergio Bustamante, Pablo Castro, Alberto Laso, Mario Manana and Alberto Arroyo
Sustainability 2017, 9(8), 1462; https://doi.org/10.3390/su9081462 - 17 Aug 2017
Cited by 7 | Viewed by 6558
Abstract
The European Commission has explained how heating and cooling in buildings and industry account for half of the energy consumption of the EU. Several studies explain how to achieve an energy saving at home, and the use of smart thermostats will help to [...] Read more.
The European Commission has explained how heating and cooling in buildings and industry account for half of the energy consumption of the EU. Several studies explain how to achieve an energy saving at home, and the use of smart thermostats will help to reduce energy consumption while increasing the efficiency of households. In this article, a comparative evaluation was carried out between four smart thermostats that are now on the market, whose characteristics vary in terms of price, precision of measurements and set temperature, algorithms, etc. A thermal test chamber was designed and constructed from a refrigerator, a thermal blanket, a Raspberry Pi and the necessary electronic components for its control and data collection. From the tests carried out in the thermal chamber, data on the operation of the four thermostats such as the maintenance and the anticipation of the setpoint temperature, were obtained. It was necessary to run the system enough times for each thermostat to memorize the housing characteristics, such as its inertia and its thermal insulation. This would also allow for the generation of a better algorithm to regulate the temperature, which would create a lower oscillation with respect to the setpoint temperature. The learning of the thermostats was not demonstrated and for the anticipation mode it was seen that the thermostats failed to improve or learn in this aspect, as they did not improve the start-up times of the heating system, with the consequent increase in energy consumption. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

580 KiB  
Article
Adjustable Green Defaults Can Help Make Smart Homes More Sustainable
by Nicole D. Sintov and P. Wesley Schultz
Sustainability 2017, 9(4), 622; https://doi.org/10.3390/su9040622 - 17 Apr 2017
Cited by 26 | Viewed by 9364
Abstract
Smart home technologies offer exciting opportunities to promote more efficient uses of energy. For instance, programmable thermostats, centralized lighting controls, and rooftop solar panels all have potential for energy conservation and efficiency. However, these technologies alone will not guarantee energy savings. Whereas previous [...] Read more.
Smart home technologies offer exciting opportunities to promote more efficient uses of energy. For instance, programmable thermostats, centralized lighting controls, and rooftop solar panels all have potential for energy conservation and efficiency. However, these technologies alone will not guarantee energy savings. Whereas previous research on smart homes has focused on the technologies themselves, relatively little work has addressed the factors that shape the human-technology interface. In this review paper, we argue that in order to ensure any savings, smart home technologies must first be adopted by end-users, and once adopted, they must be used in ways that promote energy efficiency. We focus on three areas of behavioral research with implications for smart home technologies: (1) defaults; (2) perceived adjustability or control; and (3) trust in automation. Linking these areas, we propose a new concept for improving the efficiency gains of smart homes. First, although smart device controls can help save energy, considerably larger energy efficiency gains can be realized through smart automation. But importantly, the default settings of systems should be “green”, to maximize energy savings. Second, many people have concerns around relinquishing decision-making to technologies, which can reduce the likelihood of adoption. People want to be, or at least to feel, in control of their homes, even if they do not adjust settings post-installation. Further, consumer trust in technologies encourages adoption in the first place; trust also impacts consumer interactions with installed devices and can impact default acceptance. Combining these concepts, we recommend that smart home technologies build consumer trust and come pre-programmed with adjustable green defaults, which permit consumers to change initial green settings. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

2712 KiB  
Article
The PeRvasive Environment Sensing and Sharing Solution
by Paolo Bellavista, Carlo Giannelli and Riccardo Zamagna
Sustainability 2017, 9(4), 585; https://doi.org/10.3390/su9040585 - 11 Apr 2017
Cited by 16 | Viewed by 4773
Abstract
To stimulate better user behavior and improve environmental and economic sustainability, it is of paramount importance to make citizens effectively aware of the quality of the environment in which they live every day. In particular, we claim that users could significantly benefit from [...] Read more.
To stimulate better user behavior and improve environmental and economic sustainability, it is of paramount importance to make citizens effectively aware of the quality of the environment in which they live every day. In particular, we claim that users could significantly benefit from cost-effective efficient Internet-of-Things (IoT) solutions that provide them with up-to-date live information about air pollution in the areas where they live, suitably adapted to different situations and with different levels of dynamically selected granularities (e.g., at home/district/city levels). Our PeRvasive Environment Sensing and Sharing (PRESS) project has the ambition of increasing users’ awareness of the natural environment they live in, as a first step towards improved sustainability; the primary target is the efficient provisioning of real-time user-centric information about environmental conditions in the surroundings, and in particular about air pollution. To this purpose, we have designed, implemented, and thoroughly evaluated the PRESS framework, which is capable of achieving good flexibility and scalability while integrating heterogeneous monitoring data, ranging from sensed air pollution to user-provided quality perceptions. Among the elements of technical originality, PRESS exploits extended Kura IoT gateways with novel congestion detection and recovery mechanisms that allow us to optimize bandwidth allocation between in-the-field PRESS components and the cloud. The reported performance results show the feasibility of the proposed solution, by pointing out not only the scalability and efficiency of the adopted message-based solution that uses Message Queue Telemetry Transport (MQTT) and WebSockets, but also the capability of PRESS to quickly identify and manage traffic congestions, thus, ensuring good quality levels to final users. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

2184 KiB  
Article
SH-SecNet: An Enhanced Secure Network Architecture for the Diagnosis of Security Threats in a Smart Home
by Saurabh Singh, Pradip Kumar Sharma and Jong Hyuk Park
Sustainability 2017, 9(4), 513; https://doi.org/10.3390/su9040513 - 28 Mar 2017
Cited by 27 | Viewed by 10898
Abstract
The growing demand for an independent and comfortable lifestyle has motivated the development of the smart home, and providing security is a major challenge for developers and security analysts. Enhancing security in the home environment has been recognized as one of the main [...] Read more.
The growing demand for an independent and comfortable lifestyle has motivated the development of the smart home, and providing security is a major challenge for developers and security analysts. Enhancing security in the home environment has been recognized as one of the main obstacles to realizing the vision of creating energy-efficient smart homes and buildings. Understanding the risks associated with the use and potential exploitation of information about homes, end-users, and partners, as well as forming techniques for integrating security assessments into the design, is not straightforward. To address this challenge, we propose enhanced secure network architecture (SH-SecNet) for the diagnosis of security threats in the smart home. In our architecture, we use the Multivariate Correlation Analysis (MCA) technique to analyze the network flow packet in the network layer, as this classifies the network traffic by extracting the correlation between network traffic features. We evaluated the performance of our architecture with respect to various parameters, such as CPU utilization, throughput, round trip time, and accuracy. The result of the evaluation shows that our architecture is efficient and accurate in detecting and mitigating attacks in the smart home network with a low performance overhead. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

1808 KiB  
Article
Distributed Demand Side Management with Battery Storage for Smart Home Energy Scheduling
by Omowunmi Mary Longe, Khmaies Ouahada, Suvendi Rimer, Ashot N. Harutyunyan and Hendrik C. Ferreira
Sustainability 2017, 9(1), 120; https://doi.org/10.3390/su9010120 - 14 Jan 2017
Cited by 54 | Viewed by 6766
Abstract
The role of Demand Side Management (DSM) with Distributed Energy Storage (DES) has been gaining attention in recent studies due to the impact of the latter on energy management in the smart grid. In this work, an Energy Scheduling and Distributed Storage (ESDS) [...] Read more.
The role of Demand Side Management (DSM) with Distributed Energy Storage (DES) has been gaining attention in recent studies due to the impact of the latter on energy management in the smart grid. In this work, an Energy Scheduling and Distributed Storage (ESDS) algorithm is proposed to be installed into the smart meters of Time-of-Use (TOU) pricing consumers possessing in-home energy storage devices. Source of energy supply to the smart home appliances was optimized between the utility grid and the DES device depending on energy tariff and consumer demand satisfaction information. This is to minimize consumer energy expenditure and maximize demand satisfaction simultaneously. The ESDS algorithm was found to offer consumer-friendly and utility-friendly enhancements to the DSM program such as energy, financial, and investment savings, reduced/eliminated consumer dissatisfaction even at peak periods, Peak-to-Average-Ratio (PAR) demand reduction, grid energy sustainability, socio-economic benefits, and other associated benefits such as environmental-friendliness. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

2822 KiB  
Article
Towards Sustainable Smart Homes by a Hierarchical Hybrid Architecture of an Intelligent Agent
by K. Yang and Sung-Bae Cho
Sustainability 2016, 8(10), 1020; https://doi.org/10.3390/su8101020 - 13 Oct 2016
Cited by 6 | Viewed by 4470
Abstract
A smart home can be realized by the provision of services, such as building control, automation and security implemented in accordance with a user’s request. One of the important issues is how to respond quickly and appropriately to a user’s request in a [...] Read more.
A smart home can be realized by the provision of services, such as building control, automation and security implemented in accordance with a user’s request. One of the important issues is how to respond quickly and appropriately to a user’s request in a “dynamic environment”. An intelligent agent infers the user’s intention and provides the intact service. This paper proposes a smart home agent system based on a hierarchical hybrid architecture of a user intention model, which models the user intention as a hierarchical structure and implements it in a dynamic environment. The conventional rule-based approach needs to obtain all information before it is executed, which requires a large number of rules and is hardly scalable as the control objects are increasing. On the other hand, the proposed system consists of several modules that construct a hierarchical user intention model. The smart home system needs to take account of the information, such as time, state of device and state of the home, in addition to users’ intention. We evaluate the performance of the proposed system in a dynamic environment and conduct a blind test with seven subjects to measure the satisfaction of service, resulting in the average score of 81.46. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

Review

Jump to: Research

1897 KiB  
Review
Healthcare in the Smart Home: A Study of Past, Present and Future
by Jamie Bennett, Osvaldas Rokas and Liming Chen
Sustainability 2017, 9(5), 840; https://doi.org/10.3390/su9050840 - 17 May 2017
Cited by 60 | Viewed by 16012
Abstract
Ubiquitous or Pervasive Computing is an increasingly used term throughout the technology industry and is beginning to enter the consumer electronics space in its most recent form under the umbrella term: “Internet of Things”. One area of focus is in augmenting the home [...] Read more.
Ubiquitous or Pervasive Computing is an increasingly used term throughout the technology industry and is beginning to enter the consumer electronics space in its most recent form under the umbrella term: “Internet of Things”. One area of focus is in augmenting the home with intelligent, networked sensors and computers to create a Smart Home which opens a host of possibilities for the role of tomorrow’s dwelling. As the world’s population continues to live longer and consequently experience more medical-related ailments, at the same time institutional healthcare is struggling to cope, the role of the Smart Home becomes paramount to monitoring a dweller’s health and providing any necessary intervention. This study looks at the history of Smart Home Healthcare, current research areas, and potential areas of future investigation. Unique categorisations are presented in Activities of Daily Living (ADL) and Personal Sensors, and a thorough look at the application of Smart Home Healthcare is presented. Technology can augment traditional methods of healthcare delivery and in some cases completely replace it. Costs can be reduced and medical adherence can be increased, all of which contribute to a more sustainable and effective model of care. Full article
(This article belongs to the Special Issue The Advent of Smart Homes)
Show Figures

Figure 1

Back to TopTop