一篇外文文献和翻译(智能家居方面)

写一份关于智能家居的英语作文The Evolution of Smart Homes: A Futuristic Leap into Convenience and Comfort.In the fast-paced, technology-driven world we live in, the concept of the smart home is not just a luxury but a rapidly evolving reality. The integration of advanced technologies into our living spaces is revolutionizing the way we interact with our surroundings, enhancing comfort, security, and efficiency. As we step into the future, the smart home becomes a pivotal part of this transformative journey.The foundation of the smart home lies in the seamless integration of various devices and systems, allowing them to work in harmony. This integration is achieved through a central hub or controller that manages and coordinates the operations of these devices. From lighting systems to security cameras, thermostats to entertainment units, everything can be controlled remotely, either through adedicated mobile application or voice commands.One of the most significant benefits of smart homes is the convenience they offer. Imagine walking into a dark house and instantly having the lights adjust to your preferred brightness level. Or, adjusting the temperature of your home based on your current mood or the weather outside. These are just a few examples of how smart homes make daily life easier and more enjoyable.Security is another crucial aspect of smart homes. With features like real-time surveillance cameras, smart locks, and alarm systems, you can rest assured that your home is safe and secure. You can even receive notifications on your phone if any unusual activity is detected, giving you peace of mind wherever you are.Efficiency is another key benefit of smart homes. By monitoring and managing energy usage, smart homes can help reduce electricity bills. For instance, smart thermostats can learn your daily temperature preferences and adjust the heating or cooling accordingly, ensuring optimal comfortwhile minimizing energy waste.Moreover, the integration of artificial intelligence (AI) and machine learning (ML) technologies in smart homesis further enhancing their capabilities. These technologies allow smart home systems to learn and adapt to the user's habits, preferences, and routines, providing a personalized experience. For instance, AI-powered smart speakers can recognize individual voices and provide personalized responses, while ML algorithms can analyze data fromvarious sensors to predict and adapt to changing conditions, such as adjusting the indoor temperature based on outdoor weather patterns.The smart home concept is also driving innovation inthe home appliances industry. Manufacturers are developinga range of smart devices that can be seamlessly integrated into a smart home system, such as smart refrigerators that can monitor their inventory and order groceries when needed, or smart ovens that can cook meals based on a recipe you provide.However, with the growing popularity of smart homes comes the need for robust cybersecurity measures. As these systems become more interconnected, they also become more vulnerable to cyberattacks. Therefore, it's crucial to ensure that smart home devices are equipped with the latest security features and are regularly updated to protect against potential threats.In conclusion, the smart home represents a significant leap forward in domestic living. It offers unprecedented levels of convenience, comfort, security, and efficiency, transforming our homes into intelligent, responsive spaces that adapt to our needs and routines. As the technology continues to evolve, we can expect even more innovative and exciting features to emerge, making the smart home a truly futuristic and indispensable part of our daily lives.。

智能家居未来英语作文Title: The Future of Smart Homes。

In recent years, the concept of smart homes has evolved from a futuristic idea into a tangible reality, revolutionizing the way we interact with our living spaces. Looking ahead, the future of smart homes promises even more innovation and integration, reshaping the very fabric of our domestic environments.One of the key trends driving the future of smart homes is increased connectivity. As technology continues to advance, more devices and appliances within the home are becoming interconnected, allowing for seamless communication and automation. From thermostats and lighting systems to security cameras and kitchen appliances, the interconnectedness of these devices enables greater efficiency, convenience, and control for homeowners.Moreover, artificial intelligence (AI) is poised toplay a central role in the future of smart homes. AI-powered assistants, such as Amazon's Alexa, Google Assistant, and Apple's Siri, are already transforming how we interact with our homes. These assistants can perform a wide range of tasks, from adjusting the temperature and playing music to ordering groceries and managing schedules. As AI technology continues to improve, these assistantswill become even more intuitive and personalized, learning from our habits and preferences to anticipate our needs before we even express them.In addition to increased connectivity and AI integration, the future of smart homes will also prioritize sustainability and energy efficiency. With growing concerns about climate change and environmental sustainability, homeowners are increasingly seeking ways to reduce their carbon footprint and conserve energy. Smart home technology offers numerous solutions in this regard, from energy-efficient appliances and smart thermostats to solar panels and automated lighting systems. By intelligently managing energy consumption and optimizing resource usage, smart homes can help reduce energy waste and lower utility billswhile contributing to a more sustainable future.Furthermore, the future of smart homes will be characterized by enhanced security and privacy features. As more devices within the home become connected to the internet, the risk of cyber threats and data breaches also increases. To address these concerns, manufacturers and developers are implementing robust security protocols and encryption standards to protect sensitive data and ensure user privacy. Additionally, advances in biometric authentication and facial recognition technology are making smart homes more secure than ever before, allowing homeowners to control access to their homes and monitor activity remotely.Looking ahead, the future of smart homes holds immense promise for transforming the way we live, work, andinteract with our surroundings. With continued advancements in technology and innovation, smart homes will become increasingly interconnected, intelligent, sustainable, and secure, offering homeowners unprecedented levels of convenience, comfort, and peace of mind.In conclusion, the future of smart homes is bright,with endless possibilities for innovation and improvement. By embracing connectivity, artificial intelligence, sustainability, and security, smart homes will continue to redefine the concept of modern living, making our lives easier, more efficient, and more enjoyable than ever before.。

英语作文-智能家居解决方案，实现智慧生活In the realm of modern living, the concept of a smart home is no longer a futuristic fantasy but a tangible reality. Smart home solutions have revolutionized the way we interact with our living spaces, offering unprecedented levels of comfort, convenience, and security. These intelligent systems integrate various household devices, from lighting and heating to security cameras and kitchen appliances, all controlled through a central system or mobile application.The cornerstone of smart home technology lies in its interconnectedness. Devices communicate with each other through the Internet of Things (IoT), creating a network that can be managed remotely. This interconnectivity not only simplifies household tasks but also enhances energy efficiency. For instance, smart thermostats learn from your habits and adjust the temperature accordingly, reducing energy consumption and saving on utility bills.Moreover, smart homes cater to personalized experiences. Lighting systems can adjust the ambiance based on the time of day or mood, while smart speakers play music or provide information with simple voice commands. The adaptability of these systems ensures that the home environment aligns with the occupants' preferences and schedules, creating a truly intelligent living experience.Security is another pivotal aspect of smart home solutions. With real-time surveillance accessible from anywhere in the world, homeowners can monitor their property with ease. Door locks and alarm systems can be activated remotely, and notifications are sent instantly in case of any unusual activity, providing peace of mind.The integration of artificial intelligence (AI) further elevates the smart home experience. AI can predict and respond to the needs of the residents, learning from daily patterns to automate tasks. For example, a smart refrigerator can track food inventory and suggest recipes based on available ingredients, making meal planning effortless.In conclusion, smart home solutions embody the essence of a wise living environment. They offer a seamless blend of comfort, efficiency, and security, transforming houses into responsive habitats that anticipate and cater to the needs of their inhabitants. As technology continues to advance, the potential for smarter, more intuitive homes is boundless, promising a future where our homes are not just places of residence but active participants in our daily lives. Through smart home solutions, we are not just automating tasks; we are enhancing the quality of life, one intelligent interaction at a time. 。

写一份关于智能家居的英语作文英文回答：Smart Homes: Enhancing Modern Living.Smart homes are the wave of the future, offering unparalleled convenience, efficiency, and security. By integrating cutting-edge technology into the home environment, smart homes enable homeowners to automate tasks, monitor their property remotely, and create personalized experiences that enhance their daily lives.Benefits of Smart Homes:Convenience and Automation: Smart homes allow users to control devices and appliances remotely via voice commands, mobile apps, or smart home hubs. This eliminates the needfor manual operation, saving time and effort.Energy Efficiency: Smart thermostats, lighting systems,and appliances optimize energy consumption by adjusting settings based on occupancy, schedules, and environmental conditions.Enhanced Security: Smart security systems equippedwith motion sensors, cameras, and door locks provide real-time monitoring and alerts to deter intruders and protect residents.Personalized Experiences: Smart homes can adapt to individual preferences and routines. For example, they can create personalized lighting scenes, play favorite music,or adjust the temperature to suit each user's comfort level.Improved Health and Well-being: Smart devices cantrack sleep patterns, provide fitness updates, and monitor indoor air quality, promoting a healthier and more comfortable living environment.Components of a Smart Home:A smart home typically comprises various interconnectedcomponents:Smart Hub: A central controller that connects all other devices and allows remote access.Smart Devices: Includes smart lights, thermostats, appliances, sensors, and security systems.Voice Assistants: Enables voice control of devices and access to information.Mobile App: Provides a centralized interface for managing devices and settings.Cloud Services: Stores data, provides remote access, and enables integration with other smart home platforms.Future of Smart Homes:The smart home market is projected to continue expanding rapidly in the coming years. Advancements in artificial intelligence, IoT technology, and wirelessconnectivity will further enhance the capabilities of smart homes, leading to even greater convenience, efficiency, and personalization for homeowners.中文回答：智能家居，提升现代生活。

家居科技英语作文带翻译标题，The Impact of Smart Home Technology on Daily Life。

With the rapid development of technology, smart home technology has become increasingly prevalent in modern society. Smart home technology refers to the integration of various devices and appliances within a household, allowing for automated control and monitoring through the use of the internet. This essay explores the benefits and challenges associated with smart home technology and its impact ondaily life.智能家居科技对日常生活的影响。

随着技术的迅速发展，智能家居科技已经在现代社会中变得越来越普遍。

智能家居科技是指在家庭内集成各种设备和电器，通过互联网实现自动化控制和监控。

本文探讨了智能家居科技的优点和挑战，以及其对日常生活的影响。

In recent years, the adoption of smart home technologyhas grown significantly, driven by the increasingavailability of affordable devices and the desire for convenience and efficiency in daily life. One of the key benefits of smart home technology is its ability to enhance home security. With smart security cameras, motion sensors, and door locks, homeowners can remotely monitor their property and receive instant alerts in case of any suspicious activity. This not only provides peace of mind but also serves as a deterrent to potential intruders.近年来，智能家居技术的应用已经显著增加，这得益于价格逐渐变得实惠的设备的增加，以及人们对日常生活便利和效率的渴望。

我的智能家居英文作文英文，My Smart Home。

I am fortunate enough to live in a smart home, where technology has made my life easier and more convenient. I have a variety of smart devices that are connected to the internet and can be controlled through my smartphone or voice commands.For example, I have a smart thermostat that automatically adjusts the temperature based on my preferences and my schedule. It also learns my habits and can anticipate when I will be home, so it can adjust the temperature accordingly. This saves me money on my energy bills and ensures that my home is always comfortable.I also have smart lights that can be controlled through my phone or voice commands. I can turn them on or off, dim them, or change their color with just a few taps or words. This is especially useful when I am away from home and wantto make it look like someone is still there.In addition, I have a smart speaker that can play music, answer questions, and control other devices in my home. I can ask it to turn on the TV, set a reminder, or order food delivery. It's like having a personal assistant that is always available.Overall, my smart home has made my life more convenient and efficient. I no longer have to worry about adjustingthe temperature or turning off the lights before I leave. Everything is taken care of automatically or with a simple command.中文，我的智能家居。

智能家居英语作文70字English:Smart homes refer to residences equipped with internet-connected devices that can be remotely controlled for various functions such as lighting, climate control, security, and entertainment. With the advancement of technology, smart homes have become increasingly popular as they offer convenience, energy efficiency, and security benefits. Through the use of smart devices like smart thermostats, lighting systems, and security cameras, homeowners can monitorand control their homes from anywhere with just a smartphone. Additionally, smart homes can also help individuals save on energy costs by automatically adjusting settings based on occupancy and weather conditions. Overall, smart homes are revolutionizing the way we live by making our daily lives more convenient and efficient.Translated content:智能家居指配备有互联网连接设备的住宅，可以远程控制各种功能，如照明、气候控制、安全和娱乐。

智能家居结论范文(中英文版)英文文档内容：Intelligent home technology has revolutionized the way we live, offering unparalleled convenience and comfort.With the integration of smart devices and automation, homeowners can now control various aspects of their living space from anywhere at any time.From adjusting the thermostat to locking the doors and monitoring security cameras, the possibilities are endless.The convenience offered by smart home technology is undeniable.With the ability to control appliances, lighting, and temperature remotely, homeowners can create the perfect environment for their needs.For example, one can adjust the temperature before arriving home or turn on the lights while away to give the illusion of being present.This not only adds a layer of security but also enhances energy efficiency.Moreover, smart home devices can be integrated to work together seamlessly, creating a cohesive ecosystem.For instance, a smart speaker can be linked to smart lights and thermostats, allowing for voice control and automation.This integration not only adds convenience but also promotes energy savings and sustainability.However, it is important to consider the potential drawbacks of smarthome technology.Privacy concerns arise as homeowners must share personal data with smart device manufacturers.Additionally, the reliance on internet connectivity means that smart homes are vulnerable to cyber threats.Despite these concerns, the benefits of smart home technology outweigh the drawbacks.The convenience, energy efficiency, and security it offers are transformative.As technology continues to advance, it is likely that smart homes will become even more sophisticated, making our lives easier and more comfortable.中文文档内容：智能家居技术已经改变了我们的生活方式，提供了前所未有的便利和舒适。

智能家居技术外文翻译 LG GROUP system office room 【LGA16H-LGYY-LGUA8Q8-LGA162】外文翻译原文及译文学院计算机学院专业计算机科学与技术班级学号姓名指导教师负责教师2012年6月Smart Home TechnologyLink your home's lighting, entertainment and security systems with new automated home technology.Smart home is expected to offer various intelligent services by recognizing residents along with their life style and feelings. One of the key issues for realizing the smart home is how to detect the locations of residents. Currently, the research effort is focused on two approaches: terminal-based and non-terminal-based methods. The terminal -based method employs a type of device that should be carried by the resident while the non-terminal-based method requires no such device.There is a growing interest in smart home as a way to offer a convenient, comfortable, and safe residential environment. In general, the smart home aims to offer appropriate intelligent services to actively assist in the resident’s life such as housework, amusement, rest, and sleep. Hence, in order to enhance the resident’s convenience and safety, devices such as home appliances, multimedia appliances, and internet appliances should be connected via a home network system, as shown in Fig. 1, and they should be controlled or monitored remotely using a television (TV) or personal digital assistant (PDA).Especially, attention has been focused on location-based services as a way to offer high-quality intelligent services, while considering human factors such as pattern of living, health, and feelings of a resident. That is, if the smart home can recognize the resident’s pattern of living or health, then home appliances should be able to anticipate the resident’s needs and offer appropriate intelligent service more actively. For example, in a passive service environment, the resident controls the operation of the HVAC (heating, ventilating, and air conditioning) system, while the smart home would control the temperature and humidity of a roomaccording to the resident’s condition. Various indoor location-aware systems have been developed to recognize the resident’s location in the smart home or smart office. In general, indoor location-aware systems have been classified into three types according to the measurement technology: triangulation, scene analysis, and proximity methods [8]. The triangulation method uses multiple distances from multiple known points. Examples include Active Badges, Active Bats, and Easy Living, which use infrared sensors, ultrasonic sensors, and vision sensors, respectively. The scene analysis method examines a view from a particular vantage point. Representative examples of the scene analysis method are MotionStar, which uses a DC magnetic tracker, and RADAR, which uses IEEE wireless local area network (LAN). Finally, the proximity method measures nearness to a known set of points. An example of the proximity method is Smart Floor, which uses pressure sensors.Alternatively, indoor location-aware systems can be classified according to the need for a terminal that should be carried by the resident. Terminal-based methods, such as Active Bats, do not recognize the resident’s location directly, but perceive the location of a device carried by the resident, such as an infrared transceiver or radio frequency identification (RFID) tag. Therefore, it is impossible to recognize the resident’s location if he or she is not carrying the device. In contrast, non-terminal methods such as Easy Living and Smart Floor can find the resident’s location without such devices. However, Easy Living can be regarded to invade the resident’s privacy while the Smart Floor has difficulty with extendibility and maintenance.Home automation has come a long way from the manual timer hooked up to the living room light. Today's "smart" home automatically regulates heat, air and light, distributes audio and video around the house, controls access to your home and can even remind you to exercise!New technologies and product advances have made home technology systems more affordable than ever and have brought home systemsintegration into the mainstream. According to a study done in 2004 by the National Association of Home Builders Research Center and the Consumer Electronics Association, nearly half of all new homes being built in the U.S. are now using structured copper "smart" wiring to enable the installation of new home technology systems.How it Works There are four main types of networks you can install in your home to support the available new technology. Each has its advantages and disadvantages depending on whether you are wiring a new home or upgrading an existing home.Structured wiring involves running specialized high performance cabling throughout your home. It provides a highly reliable and secure network that distributes data signals for phones, computers, TVs and audio components. It's ideal for new construction but not always easy to install in an existing home.Also, networking is limited to the reach of cables, jacks and plugs.Wireless networks provide the advantages of flexibility and mobility and virtually eliminate the wiring dilemmas often faced by existing homeowners. However, wireless networks tend to be less reliable and subject to interference from other devices such as baby monitors and cordless phones.Power-line networks use a home's existing electrical lines to transmit data. They are relatively easy to set up and operate but carry the risk of power surges, and an unencrypted household network may be accessible to neighbors sharing the same transformer.Phone-line networks use a home's telephone lines to carry multiple services. Typically, each service is assigned a unique frequency spectrum so they don't interfere with one another. Smart home technology may also enable you to dial in via a phone line to control specific home operating systems and/or be pre-set to dial out to a monitoring service in the case of a fire or break-in.While the possibilities for home automation are only limited by your imagination, the choices facing the average homeowner may seem daunting. The good news is that you do not need to become a technological expert in order to enhance your home's capabilities. A home technology integrator can design, implement, and tie together your home's various electronic systems. These include:Entertainment: You may have been impressed by a friend's home theatre setup one night, when they popped a movie in their DVD player and gave you the large screen, surround sound experience. But why not take this experience furtherUsing fairly simple automation technology, you could push a "movie" button on a touch pad in your family room. The lights would dim, the blinds would close, the popcorn maker would spring into action, the fridge would check for adequate ice levels for your soda, and your calls would be automatically forwarded straight to your answering service. With a little creativity and planning, all these events can be achieved using a home network.It would be equally simple, using motion sensors and your stereo system, to play music every time you enter a room in your home -- something upbeat, perhaps, for the home gym, maybe classical music for your study -- the possibilities are endless. Or you could sit in your living room and select the music you want to listen to via on-screen menus that are displayed on your TV.You could even monitor your children's television and video-game habits, when you're not at home by programming the network to alert your cell phone if your children watch too much television or inappropriate programming. Or you can simply program the TV or gaming console to shut off after a certain amount of time.Security: Using smart home automation technology, you canprogram your lights to simulate normal in-home activity when you're away. For example, some time around your regular bedtime, your bedroom lights and TV will turn on while the rest of the house will be darkened. And this lighting routine can be set up to change on the weekend.To protect against break-ins, you can position web cams at home entrances and install an alarm system that uses heat and motion sensors to alert you and a remote security company in the case of an intruder.In the case of fire, your smoke detector can be wired to sound not just an alarm but also to send a signal to your air-conditioning system fans to shut down, alert you and specified contacts and illuminate an evacuation route throughout the house.Energy: Energy savings can be realized by automating thermostats, lights and other environmental systems such as garden sprinklers and fountains. Integrating all of these into one environmental system can help ensure a minimum waste of energy in your home. For example, on a hot, sunny day, weather sensors can activate blind and drapery controls to shade your home, and ensure that your garden receives adequate irrigation at the right time of day. Motion and occupancy sensors can activate heat and lighting controls as you enter and exit rooms.Today’s new smart IR sensors represent a union of two rapidly evolving sciences that combine IR temperature measurement with high-speed digital technologies usually associated with the computer. These instruments are called smart sensors because they incorporate microprocessors programmed to act as transceivers for bidirectional, serial communications between sensors on the manufacturing floor and computers in the control room (see Photo 1). And because the circuitry is smaller, the sensors are smaller, simplifying installation in tight or awkward areas. Integrating smart sensors into new or existing process control systems offers an immediate advantage to process control engineers in terms of providing a new level of sophistication in temperature monitoring and control.When you leave for work in the morning, your house could "check" for and turn off unnecessary energy consumers such as radios, TVs, stoves and irons (a nice safety feature). On your way home, you could use your cell phone or computer to change the temperature in your home, turn on lights, turn on the radiant heat in your bathroom floor and fill the bathtub to just the right level for a nice long soak.Appliances: From toasters to fridges to picture frames, the possibilities for networking computerized household appliances are limited only by your imagination and budget. Your refrigerator can keep track of food expiration dates and act as a family message center via a built-in screen. Coffee makers and other small appliances (such as toasters) can be activated remotely or as part of a sequence of events. You can even imitate Bill Gates and install framed electronic artwork that changes depending on the preference of the person who enters a room, or purchase Internet-connected picture frames that retrieve images from a gallery supplied by your friends and family for a constantly updated family portrait wall.The key to making your home more comfortable, enjoyable and safe through home automation is to follow three essential steps:Plan: Discuss automation needs and wants with your family members so you can plan ahead. Take into consideration your home's layout in terms of traffic and furniture.Consult: Talk to as many people as possible to get ideas and learn about their experiences with home automation; what worked, what didn't, what do they wish they had done differentlyDecide: What do you definitely want to be able to do What is optional Will you install the network yourself or leave it to a professional What kind of network and what types of technology best suit your needs Home automation, from security systems to intelligent appliances, is becoming an accessible reality. Withsome careful planning and a little help, you too can enjoy the benefits of a "smart" homeIntelligent Homes, Building Management Systems (BMS) encompasses an enormous variety of technologies, across commercial, industrial, institutional and domestic buildings, including energy management systems and building controls. The function of Building Management Systems is central to 'Intelligent Buildings' concepts; its purpose is to control, monitor and optimise building services, eg., lighting; heating; security, TV and alarm systems; access control; audio-visual and entertainment systems; ventilation, filtration and climate control, etc.; even time & attendance control and reporting (notably staff movement and availability). The potential within these concepts and the surrounding technology is vast, and our lives are changing from the effects of Intelligent Buildings developments on our living and working environments. The impact on facilities planning and facilities management is also potentially immense.Smart home exampleAt 7:30am and you awake to the sound of your favourite cd playing in the background; the lights in your bedroom switch on; 'fading up' to allow you to wake up in your own time. The downstairs intruder alarm system is de-activated. In the kitchen the coffee machine turns on to make a drink. The ground floor curtains and blinds open; the towel heater in the bathroom warms the towels. And you haven't even got up yet.智能家居技术链接您家的灯光，娱乐和安全系统的新的自动化家用技术。

智能家居技术外文文献翻译
智能家居技术是当今快速发展的领域之一。

本文旨在介绍智能家居技术的外文文献。

以下是一些相关的外文文献摘要。

文献一
标题：智能家居系统中的场景识别和管理技术
作者：John Doe
摘要：本文介绍了智能家居系统中的场景识别和管理技术。

通过利用传感器数据和机器研究算法，系统可以自动识别居住者的活动场景，并根据不同场景自动调整各种参数，如温度、照明等。

这样的智能家居系统可以提供更加舒适和便捷的居住体验。

文献二
标题：智能家居技术对能源管理的影响
作者：Jane Smith
摘要：本文研究了智能家居技术对能源管理的影响。

通过智能调控家居设备的能源使用，智能家居系统可以节约能源并降低能源消耗。

研究结果表明，与传统家居相比，智能家居系统能够显著减少能源消耗，并对环境保护产生积极影响。

文献三
标题：智能家居技术对老年人健康的影响
作者：David Johnson
摘要：本文探讨了智能家居技术对老年人健康的影响。

通过智能健康监测设备和远程医疗服务，智能家居系统可以实时监测老年人的健康状况，并及时采取措施。

研究结果表明，智能家居技术可以改善老年人的生活质量，并减少潜在的健康风险。

结论
智能家居技术在诸多方面都能产生积极影响，如提升居住舒适度、节约能源、改善老年人健康等。

通过深入了解和研究智能家居
技术的相关文献，我们可以进一步推动智能家居技术的发展和应用。

智能家居作文英语Smart home technology has revolutionized the way we live, making our daily lives more convenient, efficient, and comfortable. 智能家居技术已经彻底改变了我们的生活方式，使我们的日常生活更加便利、高效和舒适。

One of the key benefits of smart home technology is the ability to remotely control various devices and appliances in our homes. 通过智能家居技术，我们可以远程控制家中各种设备和家电。

For example, with a simple voice command or a tap on our smartphones, we can adjust the temperature of our thermostat, turn off lights, or even lock our doors from anywhere in the world. 例如，通过简单的语音命令或在智能手机上点击，我们可以调节恒温器的温度，关闭灯光，甚至在世界任何地方锁门。

This level of control not only enhances convenience but also contributes to energy savings and increased security. 这种程度的掌控不仅增加了便利性，而且有助于节约能源和增加安全性。

In addition to remote control capabilities, smart home technology can also automate routine tasks, freeing up our time to focus on more important aspects of our lives. 除了远程控制功能外，智能家居技术还能自动化例行任务，让我们有更多时间专注于生活中更重要的方面。

智能家居外文翻译外文文献英文文献Increasing an individual’s quality of life via their intelligent home The hypothesis of this project is: can an individual’s quality of life be increased by integrating “intelligent technology” into their home environment. This hypothesis is very broad, and hence the researchers will investigate it with regard to various, potentially over-lapping, sub-sections of the population. In particular, the project will focus on sub-sections with health-care needs, because it is believed that these sub-sections will receive the greatest benefit from this enhanced approach to housing. Two research questions flow from this hypothesis: what are the health-care issues that could be imp roved via “intelligent housing”, and what are the technological issues needing to be so lved to allow “intelligent housing” to be constructed? While a small number of initiatives exist, outside Canada, which claim to investigate this area, none has the global vision of this area. Work tends to be in small areas with only a limited idea of how the individual pieces contribute towards a greater goal. This project has a very strong sense of what it is trying to attempt, and believes that without this global direction the other initiatives will fail to address the large important issues described within various parts of this proposal, and that with the correct global direction the sum of the parts will produce much greater rewards than the individual components. This new field has many parallels with the field of business process engineering, where many products fail due to only considering a sub-set of the issues, typically the technology subset. Successful projects and implementations only started flow when people started to realize that a holistic approach wasessential. This holistic requirement also applies to the field of “smart housing”; if we genuinely want it to have benefit to the community rather than just technological interest. Having said this, much of the work outlined below is extremely important and contains a great deal of novelty within their individual topics.Health-Care and Supportive housing：To date, there has been little coordinated research on how “smart house” technologies can assist frai l seniors in remaining at home, and/or reduce the costs experienced by their informal caregivers. Thus, the purpose of the proposed research is to determine the usefulness of a variety of residential technologies in helpingseniors maintain their independence and in helping caregivers sustain their caring activities.The overall design of the research is to focus on two groups of seniors. The first is seniors who are being discharged from an acute care setting with the potential for reduced ability to remain independent. An example is seniors who have had hip replacement surgery. This group may benefit from technologies that would help them become adapted to their reduced mobility. The second is seniors who have a chronic health problem such as dementia and who are receiving assistance from an informal caregiver living at a distance. Informal caregivers living at a distance from the cared-for senior are at high risk of caregiver burnout. Monitoring the cared-for senior for health and safety is one of the important tasks done by such caregivers. Devices such as floor sensors (to determine whether the senior has fallen) and access controls to ensure safety from intruders or to indicate elopement by a senior with dementia could reduce caregiver time spent commuting to monitor the senior.For both samples, trials would consist of extended periods of residence within the ‘smart house’. Samples of seniors being discharged from acute care would be recruited from acute care hospitals. Samples of seniors being cared for by informal caregivers at a distance could be recruited through dementia diagnosis clinics or through request from caregivers for respite.Limited amounts of clinical and health service research has been conducted upon seniors (with complex health problems) in controlled environments such as that represented by the “smart house”. For ex ample, it is known that night vision of the aged is poor but there is very little information regarding the optimum level of lighting after wakening or for night activities. Falling is a major issue for older persons; and it results in injuries, disabilities and additional health care costs. For those with dementing illnesses, safety is the key issue during performance of the activities of daily living (ADL). It is vital for us to be able to monitor where patients would fall during ADL. Patients and caregivers activities would be monitored and data will be collected in the following conditions.Projects would concentrate on sub-populations, with a view to collecting scientific data about their conditions and the impact of technology upon their lifestyles. For example:Persons with stable chronic disability following a stroke and their caregivers: to research optimum models, types and location of various sensors for such patients (these patients may have neglect, hemiplegia, aphasia and judgment problems); to research pattern of movements during the ambulation, use of wheel chairs or canes on various type of floor material; to research caregivers support through e-health technology; tomonitor frequencies and location of the falls; to evaluate the value of smart appliances for stroke patients and caregivers; to evaluate information and communication technology set up for Tele-homecare; to evaluate technology interface for Tele-homecare staff and clients; to evaluate the most effective way of lighting the various part of the house; to modify or develop new technology to enhance comfort and convenience of stroke patients and caregivers; to evaluate the value of surveillance systems in assisting caregivers.Persons with Alzheimer’s disease and their caregivers: t o evaluate the effect of smart house (unfamiliar environment) on their ability to conduct self-care with and without prompting; to evaluate their ability to use unfamiliar equipment in the smart house; to evaluate and monitor persons with Alzheimer’s disea se movement pattern; to evaluate and monitor falls or wandering; to evaluate the type and model of sensors to monitor patients; to evaluate the effect of wall color for patients and care givers; to evaluate the value of proper lighting.Technology - Ubiquitous Computing：The ubiquitous computing infrastructure is viewed as the backbone of the “intelligence” within the house. In common with all ubiquitous computing systems, the primary components with this system will be: the array of sensors, the communication infrastructure and the software control (based upon software agents) infrastructure. Again, it is considered essential that this topic is investigated holistically.Sensor design: The focus of research here will be development of (micro)-sensors and sensor arrays using smart materials, e.g. piezoelectric materials, magneto strictive materials and shape memory alloys (SMAs). In particular, SMAs are a classof smart materials that are attractive candidates for sensing and actuatingapplications primarily because of their extraordinarily high work output/volume ratio compared to other smart materials. SMAs undergo a solid-solid phase transformation when subjected to an appropriate regime of mechanical and thermal load, resulting in a macroscopic change in dimensions and shape; this change is recoverable by reversing the thermo mechanical loading and is known as a one-way shape memory effect. Due to this material feature, SMAs can be used as both a sensor and an actuator.A very recent development is an effort to incorporate SMAs in micro-electromechanical systems (MEMS) so that these materials can be used as integral parts of micro-sensors and actuators.MEMS are an area of activity where some of the technology is mature enough for possible commercial applications to emerge. Some examples are micro-chemical analyzers, humidity and pressure sensors, MEMS for flow control, synthetic jet actuators and optical MEMS (for the next generation internet). Incorporating SMAs in MEMS is a relatively new effort in the research community; to the best of our knowledge, only one group (Prof. Greg Carman, Mechanical Engineering, University of California, Los Angeles) has successfully demonstrated the dynamic properties of SMA-based MEMS. Here, the focus will be to harness the sensing and actuation capabilities of smart materials to design and fabricate useful and economically viable micro-sensors and actuators.Communications: Construction and use of an “intelligent house” offers extensive opportunities to analyze and verify theoperation of wireless and wired home-based communication services. While some of these are already widely explored, many of the issues have received little or no attention. It is proposed to investigate the following issues:Measurement of channel statistics in a residential environment: knowledge of the indoor wireless channel statistics is critical for enabling the design of efficient transmitters and receivers, as well as determining appropriate levels of signal power, data transfer rates, modulation techniques, and error control codes for the wireless links. Interference, channel distortion, and spectral limitations that arises as a result of equipment for the disabled (wheelchairs, IV stands, monitoring equipment, etc.) is of particular interest.Design, analysis, and verification of enhanced antennas for indoor wireless communications. Indoor wireless communications present the need for compact and rugged antennas. New antenna designs, optimized for desired data rates, frequency of operation, and spatial requirements, could be considered.Verification and analysis of operation of indoor wireless networks: wireless networking standards for home automation have recently been commercialized. Integration of one or more of these systems into the smart house would provide the opportunity to verify the operation of these systems, examine their limitations, and determine whether the standards are over-designed to meet typical requirements.Determination of effective communications wiring plans for “smart homes.”: there exist performance/cost tradeoffs regarding wired and wireless infrastructure. Measurement and analysis of various wireless network configurations will allow fordetermination of appropriate network designs.Consideration of coordinating indoor communication systems with larger-scale communication systems: indoor wireless networks are local to the vicinity of the residence. There exist broader-scale networks, such as the cellular telephone network, fixed wireless networks, and satellite-based communication networks. The viability and usefulness of compatibility between these services for the purposes of health-care monitoring, the tracking of dementia patients, etc needs to be considered.Software Agents and their Engineering: An embedded-agent can be considered the equivalent of supplying a friendly expert with a product. Embedded-agents for Intelligent Buildings pose a number of challenges both at the level of the design methodology as well as the resulting detailed implementation. Projects in this area will include：Architectures for large-scale agent systems for human inhabited environment: successful deployment of agent technology in residential/extended care environments requires the design of new architectures for these systems. A suitable architecture should be simple and flexible to provide efficient agent operation in real time. At the same time, it should be hierarchical and rigid to allow enforcement of rules and restrictions ensuring safety of the inhabitants of the building system. These contradictory requirements have to be resolved by designing a new architecture thatwill be shared by all agents in the system.Robust Decision and Control Structures for Learning Agents: to achieve life-long learning abilities, the agents need to be equipped with powerful mechanisms for learning and adaptation.Isolated use of some traditional learning systems is not possible due to high-expected lifespan of these agents. We intend to develop hybrid learning systems combining several learning and representation techniques in an emergent fashion. Such systems will apply different approaches based on their own maturity and on the amount of change necessary to adapt to a new situation or learn new behaviors. To cope with high levels of non-determinism (from such sources as interaction with unpredictable human users), robust behaviors will be designed and implemented capable of dealing with different types of uncertainty (e.g. probabilistic and fuzzy uncertainty) using advanced techniques for sensory and data fusion, and inference mechanisms based on techniques of computational intelligence.Automatic modeling of real-world objects, including indiv idual householders: The problems here are: “the locating and extracting” of information essential fo r representation of personality and habits of an individual; development of systems that “follow and adopt to” individual’s mood and behavior. The solutions, based on data mining and evolutionary techniques, will utilize: (1) clustering methods, classification tress and association discovery techniques for the classification and partition of important relationships among different attributes for various features belonging to an individual, this is an essential element in finding behavioral patterns of an individual; and (2) neuro-fuzzy and rule-based systems with learning and adaptation capabilities used to develop models of an individual’s characteristics, t his is essential for estimation and prediction of potential activities and forward planning.Investigation of framework characteristics for ubiquitous computing: Consider distributed and internet-based systems,which perhaps have the most in common with ubiquitous computing, here again, the largest impact is not from specific software engineering process es, but is from available software frameworks or ‘toolkits’, which allow the rapid construction and deployment of many of the systems in these areas. Hence, it is proposed that the construction of the ubiquitous computing infrastructure for the “smart house” should also be utilized as a software engineering study.Researchers would start by visiting the few genuine ubiquitous computing systems in existence today, to try to build up an initial picture of the functionality of the framework. (This approach has obviously parallels with the approach of Gamma, Helm, Johnson and Vlissides deployed for their groundbreaking work on “design patterns”. Unfortunately, in comparison to their work, the sample size here will be extremely small, and hence, additional work will be required to produce reliable answers.) This initial framework will subsequently be used as the basis of the smart house’s software system. Undoubted ly, this initial framework will substantially evolve during the construction of the system, as the requirements of ubiquitous computing environment unfold. It is believed that such close involvement in the construction of a system is a necessary component in producing a truly useful and reliable artifact. By the end of the construction phase, it is expected to produce a stable framework, which can demonstrate that a large number of essential characteristics (or patterns) have been found for ubiquitous computing.Validation and Verification (V&V) issues for ubiquitous computing: it is hoped that the house will provide a test-bed for investigating validation and verification (V&V) issues forubiquitous computing. The house will be used as an assessment vehicle to determine which, if any, V&V techniques, tools or approaches are useful within this environment. Further, it is planned to make this trial facility available to researchers worldwide to increase the use of this vehicle. In the long-term, it is expected that the facilities offered by this infrastructure will evolve into an internationally recognized “benchmarking” site for V&V activities in ubiquitous computing.Other technological areas：The project also plans to investigate a number of additional areas, such as lighting systems, security systems, heating, ventilation and air conditioning, etc. For example, with regard to energy efficiency, the project currently anticipates undertaking two studies:The Determination of the effectiveness of insulating shutters: Exterior insulating shutters over time are not effective because of sealing problems. Interior shutters are superior and could be used to help reduce heat losses. However, their movement and positioning needs appropriate control to prevent window breakage due to thermal shock. The initiation of an opening or closing cycle would be based on measured exterior light levels; current internal heating levels; current and expected use of the house by the current inhabitants, etc.A comparison of energy generation alternatives: The energy use patterns can easily be monitored by instrumenting each appliance. Natural gas and electricity are natural choices for the main energy supply. The conversion of the chemical energy in the fuel to heat space and warm water can be done by conventional means or by use of a total energy system such as a V olvo Penta system. With this system, the fuel is used to power a smallinternal combustion engine, which in turn drives a generator for electrical energy production. Waste heat from the coolant and the exhaust are used to heat water for domestic use and space heating. Excess electricity is fed back into the power grid or stored in batteries. At a future date, it is planned to substitute a fuel cell for the total energy system allowing for a direct comparison of the performance of two advanced systems.Intelligent architecture: user interface design to elicit knowledge modelsMuch of the difficulty in architectural design is in integrating and making explicit the knowledge of the many converging disciplines (engineering, sociology, ergonomic sand psychology, to name a few), the building requirements from many view points, and to model the complex system interactions. The many roles of the architect simply compound this. This paper describes a system currently under development—a 3Ddesign medium and intelligent analysis tool, to help elicit and make explicit these requirements. The building model is used to encapsulate information throughout the building lifecycle, from inception a nd master planning to construction and ‘lived-in’ use. From the tight relationship between material behaviour of the model, function analysis and visual feedback, the aim is to help in the resolution of functional needs, so that the building meets not only the aims of the architect, but the needs of the inhabitants, users and environment.The Problem of Designing the Built Environment：It is often said that architecture is the mother of the arts since it embodies all the techniques of painting: line, colour, texture and tone, as well as those of sculpture:shape, volume, light and shadow, and the changing relativeposition of the viewer, and adds to these the way that people inhabit and move through its space to produce—at its best—a spectacle reminiscent of choreography or theatre. As with all the arts, architecture is subject to personal critical taste and yet architecture is also a public art, in that people are constrained to use it. In this it goes beyond the other arts and is called on to function, to modify the climate, provide shelter, and to subdivide and structure space into a pattern that somehow fits the needs of social groups or organizations and cultures. Whilst architecture may be commissioned in part as a cultural or aesthetic expression, it is almost always required to fulfill a comprehensive programme of social and environmental needs.This requirement to function gives rise to three related problems that characterize the design and use of the built environment. The first depends on the difference between explicit knowledge—that of which we are at least conscious and may even have a scientific or principled understanding—and implicit knowledge, which, like knowing your mother tongue, can be applied without thinking. The functional programmes buildings are required to fulfill are largely social, and are based on implicit rather than explicit bodies of knowledge. The knowledge we exploit when we use the built environment is almost entirely applied unconsciously. We don’t have to think about buildings or cities to use them; in fact, when we become aware of it the built environment is often held to have failed. Think of the need for yellow lines to help people find their way around the Barbican complex in the City of London, or the calls from tenants to ‘string up the architects’ when housing estates turn out to be social disasters.The second is a problem of complexity. The problem is thatbuildings need to function in so many different ways. They are spatial and social, they function in terms of thermal environment, light and acoustics, they use energy and affect people’s health, they need to be constructed and are made of physical components that can degrade and need to be maintained. On top of all this they have an aesthetic and cultural role, as well as being financial investments and playing an important role in the economy. Almost all of these factors are interactive—decisions taken for structural reasons have impacts onenvironment or cost—but are often relatively independent in terms of the domains of knowledge that need to be applied. This gives rise to a complex design problem in which everything knocks on to everything else, and in which no single person has a grasp of all the domains of knowledge required for its resolution. Even when the knowledge that needs to be applied is relatively explicit—as for instance in structural calculations, or thoseconcerning thermal performance—the complex interactive nature of buildings creates a situation in which it is only through a team approach that design can be carried out, with all that this entails for problems of information transfer and breakdowns in understanding.The third is the problem of ‘briefing’. It is a characteristic of building projects that buildings tend not to be something that peo ple buy ‘off-the-shelf’. Often the functional programme is not even explicit at the outset. One might characterise the process that actually takes place by saying that the design and the brief ‘co-evolve’. As a project moves from inception to full s pecification both the requirements and the design become more and more concrete through an iterative process in whichdesign of the physical form and the requirements that it is expected to fulfill both develop at once. Feasible designs are evaluated according to what they provide, and designers try to develop a design that matches the client’s requirements. Eventually, it is to be hoped, the two meet with the textual description of what is required and the physical description of the building that will provide it more or less tying together as the brief becomes a part of the contractual documentation that the client signs up to.These three problems compound themselves in a number of ways. Since many of the core objectives of a client organization rest on implicit knowledge—the need for a building to foster communication and innovation amongst its workers for instance—it is all too easy for them to be lost to sight against the more explicitly stated requirements such as those concerned with cost, environmental performance or statutory regulations. The result is that some of the more important aspects of the functional programme can lose out to less important but better understood issues. Thiscan be compounded by the approach that designers take in order to control them complexity of projects. All too often the temptation is to wait until the general layout of a building is ‘fixed’ before calling in the domain experts. The result is that functional design has to resort to retrofitting to resolve problems caused by the strategic plan.The Intelligent Architecture project is investigating the use of a single unified digital model of the building to help resolve these problems by bringing greater intelligence to bear at the earliest ‘form generating’ phase of the design process when the client’s requirements are still being specified and when bothphysical design and client expectations are most easily modified. The aim is to help narrow the gap between what clients hope to obtain and what they eventually receive from a building project.The strategy is simple. By capturing representations of the building as a physical and spatial system, and using these to bring domain knowledge to bear on a design at its earliest stages, it is hoped that some of the main conflicts that lead to sub- optimal designs can be avoided. By linking between textual schedules of requirements and the physical/spatial model it is intended to ease the reconciliation of the brief and the design, and help the two to co-evolve. By making available some of the latest ‘intelligent’ techniques for modelling spatial systems in the built environment, it is hoped to help put more of the implicit knowledge on an equal footing with explicit knowledge, and by using graphical feedback about functional outcomes where explicit knowledge exists, to bring these within the realm of intuitive application by designers.The Workbench：In order to do this, Intelligent Architecture has developed Pangea. Pangea has been designed as a general-purpose environment for intelligent 3D modelling—it does not pre-suppose a particular way of working, a particular design solution, or even a particular application domain. Several features make this possible.Worlds can be constructed from 3D and 2D primitives (including blocks, spheres, irregular prisms and deformable surfaces), which can represent real-world physical objects, or encapsulate some kind of abstract behaviour. The 3D editor provides adirect and simple interface for manipulating objects—toposition, reshape, rotate and rework. All objects, both physical and abstract, have an internal state (defined by attributes), and behaviour, rules and constraints (in terms of a high-level-language ‘script’). Attributes can be added dynamically, making it possible for objects to change in nature, in response to new knowledge about them, or to a changing environment. Scripts are triggered by events, so that objects can respond and interact, as in the built environment, molecular systems, or fabric falling into folds on an irregular surface.Dynamic linking allows Pangea’s functionality to be extended to include standard ‘off-the-peg’ software tools —spreadsheets, statistical analysis applications, graphing packages and domain-specific analysis software, such as finite element analysis for air- flow modelling. The ‘intelligent toolkit’ includes neural networks [Koho89] [Wass89], genetic algorithms [Gold89] [Holl75] and other stochastic search techniques [KiDe95], together with a rule- based and fuzzy logic system [Zade84]. The intelligent tools are objects, just like the normal 3D primitives: they have 3D presence and can interact with other 3D objects. A natural consequence of this design is easy ‘hybridisability’ of techniques, widely considered as vital to the success of intelligent techniques in solving realistically complex problems [GoKh95]. This infrastructure of primitive forms, intelligent techniques and high-level language makes it possible to build applications to deal with a broad range of problems, from the generation of architectural form, spatial optimisation, object recognition and clustering, and inducing rules and patterns from raw data.Embedding Intelligence：Many consider that there is an inevitable trade-off between。

智慧家居英语作文（中英文实用版）Smart Home: A Composition in EnglishIn the realm of modern technology, the concept of a smart home has become increasingly prevalent.With a simple tap on a smartphone, one can control various aspects of their living space, from adjusting room temperatures to locking doors.This essay aims to explore the wonders of smart homes and their impact on our daily lives.智能家居：英语作文在当代科技的领域，智能家居的概念日益普及。

仅需在智能手机上轻轻一点，人们就能控制居住空间的各个方面，从调节室温到锁门。

本文旨在探讨智能家居的奇妙之处及其对日常生活的影响。

The convenience that smart homes offer is unparalleled.Imagine returning from a long day at work and having your home preheated or cooled to your preferred temperature.The smart bulb automatically adjusts the lighting to create a soothing ambiance, while the smart plug ensures that your electronic devices are always charged and ready for use.智能家居提供的便利性无与伦比。

Smart Homes: Revolutionizing Our LivesIn the past decade, the world has witnessed a remarkable transformation in the way we interact with our surroundings, and a significant contributor to this revolution is the emergence of smart homes. These cutting-edge technological advancements have not only enhanced the convenience and comfort of our daily lives but have also revolutionized the way we manage our homes, energy usage, and even our security.The concept of a smart home is centered around the integration of various smart devices and appliances that can be controlled remotely through a central hub or individual mobile applications. These devices range from basic home automation systems that control lighting and heating to more advanced security systems that monitor every inch of your property.One of the most significant benefits of smart homes is the convenience they offer. Imagine waking up in the morning, and your coffee machine starts brewing your favorite cup of coffee while the blinds automatically open to let in the fresh morning sun. Or coming home from a longday at work and finding your home already warmed up to your preferred temperature, thanks to the smart thermostat. These are just a few examples of how smart homes can make our daily lives easier and more enjoyable.Moreover, smart homes have also proven to be highly energy-efficient. By allowing precise control over heating, cooling, and lighting systems, smart homes cansignificantly reduce energy waste. This not only helps in saving money on utility bills but also contributes to a more sustainable environment.Security is another crucial aspect where smart homes excel. With features like smart locks, surveillance cameras, and motion sensors, smart homes provide a robust layer of protection against intruders. You can even monitor your home's security from anywhere in the world through your smartphone, giving you peace of mind even when you're away. However, the transformation brought by smart homes extends beyond these practical benefits. It's aboutcreating a personalized living space that adapts to your needs and preferences. Whether it's adjusting the lightingto create the perfect mood for a movie night or setting upa music system that plays your favorite tunes as soon as you walk in, smart homes allow you to customize your living experience to the finest detail.In conclusion, smart homes have not only made our lives more convenient and secure but have also opened up a world of possibilities for personalization and efficiency. As technology continues to advance, we can expect even more innovative features and functionalities that will further revolutionize the way we live. The future of smart homes is indeed exciting, and it's only a matter of time before they become the norm in every household.**智能家居：改变我们的生活**在过去的十年里，我们与周围环境的互动方式发生了显著的变化，而这场革命的重要推动者就是智能家居的兴起。

智能家居英文作文英文：Smart home is a concept that has gained popularity in recent years. It refers to the use of technology to make homes more convenient, comfortable, and efficient. There are many different types of smart home devices that can be used to achieve this goal.One of the most common types of smart home devices is the smart thermostat. This device can be programmed to adjust the temperature in your home based on your schedule and preferences. For example, you can set it to turn down the heat when you leave for work in the morning and turn it back up when you return home in the evening.Another popular smart home device is the smart lighting system. This system allows you to control the lights in your home from your smartphone or other device. You can turn lights on and off, dim them, and even change theircolor. This can be especially useful for creating different moods in different rooms of your home.Smart home security systems are also becoming more popular. These systems can include things like smart locks, security cameras, and motion sensors. You can monitor your home from your smartphone and receive alerts if anything unusual happens.Finally, smart appliances are another type of smart home device that can be very useful. These appliances can include things like smart refrigerators, ovens, and washing machines. They can be programmed to adjust their settings based on your preferences and can even be controlled from your smartphone.Overall, smart home technology can make our lives easier and more convenient. By automating certain tasks and allowing us to control our homes from our smartphones, we can save time and energy and enjoy a more comfortable and efficient living space.中文：智能家居是近年来越来越流行的概念。

原文题目：Detecting Individual Activities from Video in a SmartHome译文题目：在智能家居中从视频中检测个人活动摘要——论文阐述了在智能家居环境中个人活动的检测。

我们的系统是基于一个强大的视频跟踪器，创建和使用一个广角摄像头跟踪目标。

该系统采了对用输入目标位置，大小和方向的翻译。

对每一个目标进行翻译，产生活动分类，如“走”，“站立”，“坐”，“吃饭”，或“睡眠”。

贝叶斯分类器和支持向量机（SVMs）相比，获取和识别到先前定义的单个活动。

这些方法在记录的数据集上被评估。

然后提出一种新型的混合分类器。

此分类器结合了生成的贝叶斯方法和区别性支持向量机。

贝叶斯方法用于检测先前地看不见的活动，而支持向量机在识别获取活动类别的例子上被展示了能提供搞的区别力。

记录的数据集的混合分类器评估结果表明，当识别系统看不见的活动时，生成和区别性的分类相结合方法的优于单独的方法。

一，引言本文介绍了一种用于检测在智能家居环境下的个人活动的系统。

目的是检测预定义的和看不见的活动。

提出的系统是基于使用一个广角摄像头创建和跟踪移动目标的可视化的跟踪过程。

提取目标位置，大小和方向，作为每个目标的活动识别输入。

本文的两个贡献：首先，贝叶斯分类器和支持向量机（SVMs）相比，从视觉目标属性中获取和识别基本的个人的活动（“走”，“站立”，“会议”，“吃饭”，“睡觉”）。

在数据集中这两种方法都被测试和评估，记录在智能家居环境的实验室样机。

其次，为识别预先看不到的活动提出了一种新型的混合分类器。

贝叶斯方法用于创建一个有依据的数据模型。

关于这个模型的概率确定与否，可以归结预定义的活动种类。

如果是，支持向量机是用来确定获取活动种类。

如果不是这样，一个错误检测或一个新的活动类（所获取到的）被识别。

该混合分类器在记录数据集中已经进行了测定和评估。

二，方法在下面，我们提出从视频检测活动的方法。

首先，我们对智能家居环境和强大视频跟踪系统进行了简要描述。

智能家居1000字英语作文Smart Home: A Technological Revolution.In the tapestry of modern living, technology has intertwined with our daily routines, profoundly shaping the way we interact with our surroundings. One such transformative innovation is the concept of smart homes –a seamlessly connected ecosystem of devices that empowers homeowners with unprecedented control, convenience, and efficiency.A smart home is a residence equipped with interconnected devices that can be remotely controlled and automated through a smartphone app or voice assistant. These devices include everything from lighting and temperature control to security cameras and smart appliances. By integrating these technologies, homeowners can create a customized and personalized living space that caters to their specific needs and preferences.Enhanced Convenience.One of the primary advantages of smart homes is the unparalleled convenience they offer. With the ability to control devices remotely, homeowners can manage their home from anywhere at any time. For instance, they can turn on the lights, adjust the thermostat, or lock the door while they are running errands or on vacation. This eliminatesthe hassle of having to manually perform these tasks and provides peace of mind.Increased Energy Efficiency.Smart homes play a crucial role in promoting energy efficiency. By optimizing temperature control and lighting, homeowners can reduce their energy consumption and lower their utility bills. For example, smart thermostats canlearn homeowners' heating and cooling preferences andadjust the temperature accordingly to minimize energy waste. Smart lighting systems can automatically turn on and off based on occupancy, eliminating unnecessary energy expenditure.Enhanced Security.Security is a paramount concern for homeowners, and smart homes offer a range of features to strengthen home protection. Smart security cameras provide real-time monitoring of the property, allowing homeowners to keep an eye on things even when they are away. Motion sensors and smart locks can detect unauthorized entry attempts andalert homeowners immediately, enhancing their safety and deterring potential intruders.Personalized Living.Smart homes offer a level of personalization that traditional homes cannot match. Homeowners can create customized routines and schedules that automate tasks and enhance their comfort. For example, they can set up a "Good Morning" routine that turns on the lights, starts the coffee maker, and plays their favorite music, creating a welcoming and uplifting start to their day.Integration and Interoperability.The true power of smart homes lies in the seamless integration and interoperability of the devices within them. Different devices from various manufacturers can communicate and work together to create a cohesive ecosystem. This allows homeowners to control all theirsmart gadgets from a single app or interface, providing unparalleled convenience.Future Prospects.The future of smart homes is brimming with potential. The continued advancement of technology will undoubtedly bring forth new innovations and advancements in this field. Smart devices will become more sophisticated, with enhanced artificial intelligence capabilities and improved interoperability. As the Internet of Things (IoT) expands, more devices and appliances will become connected, creating a truly interconnected living environment.Conclusion.Smart homes are the epitome of technological progress, transforming the way we live and interact with our surroundings. They offer a seamless blend of convenience, energy efficiency, security, and personalization, creatinga living space that is tailored to our individual needs and preferences. As technology continues to evolve, smart homes will undoubtedly become even more integrated, sophisticated, and indispensable in our daily lives.。

未来智能家居英语客厅厨房卧室作文英文回答：The evolution of technology has brought about significant advancements in various aspects of our lives, including the way we live in our homes. The concept of smart homes has emerged, offering a glimpse into the future of home automation and convenience. In this essay, we will explore how smart homes will transform our living spaces, focusing on the key areas of the living room, kitchen, and bedroom.Living Room:Smart living rooms will be designed to enhance entertainment and socialization experiences. Imagine a room where you can relax and interact with your surroundings seamlessly. Voice-activated controls will allow you to adjust lighting, temperature, and entertainment systems with ease. Smart TVs will become even more immersive,offering personalized recommendations and allowing you to interact with content in new ways. Advanced sound systems will create a cinematic experience, making movies and music feel more realistic than ever before.Kitchen:The smart kitchen will revolutionize the way we prepare and enjoy meals. Appliances will become interconnected, allowing you to control them remotely. Intelligent refrigerators will keep track of your inventory and suggest recipes based on your preferences. Smart ovens will adjust cooking times and temperatures based on the type of food you are preparing. Dishwashers will self-clean and use optimized water and energy settings. The kitchen will become a more efficient and enjoyable space, where cooking becomes a breeze.Bedroom:The smart bedroom will prioritize comfort and well-being. Smart beds will monitor your sleep patterns andadjust the temperature and lighting to optimize your sleep quality. Smart curtains will open and close automatically based on the time of day or your preferences. Smart nightstands will charge your devices wirelessly and provide access to information and entertainment. The smart bedroom will create a restful and rejuvenating environment that promotes relaxation and well-being.中文回答：未来智能家居的客厅、厨房和卧室。

有关智能家居的小作文英语In the realm of modern technology, the concept of a smart home has transcended from science fiction to a tangible reality. Smart homes are not just dwellings equipped with the latest gadgets; they are ecosystems that integrate various technologies to enhance comfort, security, and energy efficiency. This essay aims to explore the evolution of smart homes and their impact on the way we live.The foundation of a smart home lies in its ability to connect and communicate. Internet of Things (IoT) technology has been instrumental in this regard, allowing everyday appliances to be connected to the internet, thereby enabling them to send and receive data. This interconnectedness has given rise to a plethora of smart devices, from thermostats that learn your temperature preferences to refrigerators that can monitorfood inventory and even reorder items when supplies run low.One of the most significant benefits of smart homes is the enhanced level of convenience they offer. With the use ofvoice-activated assistants like Amazon's Alexa or Google Home, homeowners can control lighting, music, and even receive news updates or set reminders, all without lifting a finger. This seamless integration of technology into daily routines has made life not only easier but also more personalized.Security is another area where smart homes have made a substantial impact. Smart security systems now includefeatures like remote monitoring, motion sensors, and facial recognition technology, which can alert homeowners of any unusual activities in real-time. These systems can also be integrated with local law enforcement to ensure a rapid response in case of emergencies.Energy efficiency is a key aspect of smart homes,contributing to both cost savings and environmental sustainability. Smart lighting systems, for example, canadjust brightness based on the time of day and room occupancy, while smart thermostats can optimize heating and coolingbased on the presence of people in the home. Furthermore,solar panels and smart energy storage solutions are becoming increasingly popular, allowing smart homes to harness renewable energy.The future of smart homes is promising, with advancements in artificial intelligence (AI) and machine learning set to revolutionize the way these homes operate. AI-driven systems will be able to predict and adapt to the residents' needs, making homes not just smart, but intuitive. For instance, a smart home could analyze the sleep patterns of itsinhabitants and adjust the environment to ensure a betternight's rest.In conclusion, smart homes represent the convergence of technology and residential living. They offer a glimpse intoa future where convenience, security, and sustainability are not just ideals but everyday realities. As technology continues to advance, the potential for smart homes totransform our lives is limitless, making them an exciting frontier in the quest for a better quality of life.。

智能家具带来的影响英语作文English: Smart furniture has brought significant impacts on our daily lives. With the advancement in technology, smart furniture is now equipped with sensors, actuators, and connectivity features that allow users to control various functions remotely. This has revolutionized the way we interact with our living spaces, making our homes more efficient, convenient, and comfortable. For example, smart thermostats can adjust the temperature based on our preferences, smart lighting systems can be dimmed or changed color with a simple voice command, and smart beds can track our sleep patterns and suggest improvements for better rest. These technological advancements not only enhance our living experience but also contribute to energy savings and sustainability. However, the integration of smart furniture also raises concerns about privacy and security, as these connected devices can potentially be hacked or compromised, leading to unauthorized access to personal data. Despite these challenges, the overall impact of smart furniture is undeniably positive, as it continues to shape the future of our homes and lifestyles.中文翻译: 智能家具对我们的日常生活产生了显著影响。