1. The technology can be used directly on the power meter. A simple and effective method is needed if the computing power of the power meter is considered. The technology can also be used in low-speed transmission to have both correctness and convenience. 2. The technology uses feature extraction and machine learning, and is coupled with the group interaction model for user behavior inference to obtain more accurate user behavior. 3. Selects multiple known points in the environment to measure the strength of the Wi-Fi signal at that location, store the feature and its corresponding spatial information in the database, and then, when the user detects the feature of Wi-Fi signal at the location, the feature is compared with the one in the database for judgment of the location of the Wi-Fi signal. 4.For the construction of Radio Map, it is mainly to establish a user operating system, which will help the user to store the information of the indoor environment of the plan of each floor and the relevant information of the plan (such as the floor, the upper left and lower right latitude and longitude, etc.) in the database. For the maintenance of the Radio Map, it is primarily to create a user operating system that provides a good UI interface that allows the user to select the floor plan of the location and indicate where it is located, after which the maintenance system will establish a reference point based on the floor and location specified by the user and measure the Wi-Fi signal strength information for the location, and then store the information of the location in the database so that the indoor positioning system can be used for Wi-Fi location service.
1. The technology can be used directly on the power meter. A simple and effective method is needed if the computing power of the power meter is considered. The technology can also be used in low-speed transmission to have both correctness and convenience. 2. The technology uses feature extraction and machine learning, and is coupled with the group interaction model for user behavior inference to obtain more accurate user behavior. 3. Selects multiple known points in the environment to measure the strength of the Wi-Fi signal at that location, store the feature and its corresponding spatial information in the database, and then, when the user detects the feature of Wi-Fi signal at the location, the feature is compared with the one in the database for judgment of the location of the Wi-Fi signal. 4.For the construction of Radio Map, it is mainly to establish a user operating system, which will help the user to store the information of the indoor environment of the plan of each floor and the relevant information of the plan (such as the floor, the upper left and lower right latitude and longitude, etc.) in the database. For the maintenance of the Radio Map, it is primarily to create a user operating system that provides a good UI interface that allows the user to select the floor plan of the location and indicate where it is located, after which the maintenance system will establish a reference point based on the floor and location specified by the user and measure the Wi-Fi signal strength information for the location, and then store the information of the location in the database so that the indoor positioning system can be used for Wi-Fi location service.
1.讓使用者可以依據我們制定好得框架,在系統實行時期(Runtime)去編輯驗證資料的規則,不需要重新開啟系統,馬上就可以改變驗證的規則。 2.透過服務元件架構可插拔式的模組概念,提供各種感測資料分析模組,並且針對能源及感測領域預先開發出比較常用的分析模組。讓使用者易於查閱目前和過去的資料,也能讓內部技術人員查看裝置(Sensor or Device )運作詳情,並管理資料讀取的頻率。
技術現況敘述-英文
1. Allows the user to edit the rules of verification data based on the established framework during the system runtime, in the system implementation period (Runtime) to, do not need to re-open the system, you can immediately change the rules of verification. 2. All types of sensing data analysis modules are provided through the concept of service component architecture pluggable module and more commonly used analysis modules are developed based on the energy and sensing areas. This makes it easy for the users can easily access the current and past information and allows internal technical staff to see the sensor or device) operation details, and manage the frequency of data reading.
技術規格
1.運用複雜事件驅動技術(CEP)開發之事件驅動技術引擎當作Rule engine。 2.提供單一介面讓各領域的領域專家撰寫本系統定義好得規則語言(rule language)。 3.提供各種Service interface adaptor ,介接各種需要驗證的資料來源。 4.基於SCA 架構開發的可插拔式模組。5.提供 restful and rmi service interface。
技術現況敘述-中文: 1.讓使用者可以依據我們制定好得框架,在系統實行時期(Runtime)去編輯驗證資料的規則,不需要重新開啟系統,馬上就可以改變驗證的規則。 2.透過服務元件架構可插拔式的模組概念,提供各種感測資料分析模組,並且針對能源及感測領域預先開發出比較常用的分析模組。讓使用者易於查閱目前和過去的資料,也能讓內部技術人員查看裝置(Sensor or Device )運作詳情,並管理資料讀取的頻率。
技術現況敘述-英文: 1. Allows the user to edit the rules of verification data based on the established framework during the system runtime, in the system implementation period (Runtime) to, do not need to re-open the system, you can immediately change the rules of verification. 2. All types of sensing data analysis modules are provided through the concept of service component architecture pluggable module and more commonly used analysis modules are developed based on the energy and sensing areas. This makes it easy for the users can easily access the current and past information and allows internal technical staff to see the sensor or device) operation details, and manage the frequency of data reading.
技術規格: 1.運用複雜事件驅動技術(CEP)開發之事件驅動技術引擎當作Rule engine。 2.提供單一介面讓各領域的領域專家撰寫本系統定義好得規則語言(rule language)。 3.提供各種Service interface adaptor ,介接各種需要驗證的資料來源。 4.基於SCA 架構開發的可插拔式模組。5.提供 restful and rmi service interface。
The focus of this technology is a common service interface with expansion and timeliness needed by a smart building, which includes four services of time calibration service, event report, status report and configuration download, and a common transport interface format.
技術現況敘述-英文: The focus of this technology is a common service interface with expansion and timeliness needed by a smart building, which includes four services of time calibration service, event report, status report and configuration download, and a common transport interface format.
The focus of this technology is a common service interface with expansion and timeliness needed by a smart building, which includes four services of time calibration service, event report, status report and configuration download, and a common transport interface format.
技術現況敘述-英文: The focus of this technology is a common service interface with expansion and timeliness needed by a smart building, which includes four services of time calibration service, event report, status report and configuration download, and a common transport interface format.
Uses front-end data to read the network, collects measurement data from the power, including load measurement, event records and cumulative measurement, and temporarily stores the data in the concentrator for the back-end system to read data with a more general command.
技術現況敘述-英文: Uses front-end data to read the network, collects measurement data from the power, including load measurement, event records and cumulative measurement, and temporarily stores the data in the concentrator for the back-end system to read data with a more general command.
Uses decentralized architecture to build a cloud data storage center, can be expanded based on the scale of the power meter, can accommodate a large amount of user energy use data, and provide data access service interface for the back-end energy management applications to quickly search for energy use data.
技術規格
本技術依照SOA(服務導向架構)建構分散式服務系統,服務存取介面則符合OGC(Open Geospatial Consortium)組織訂定的SWE(Sensor Web Enablement)標準,提供後端能源管理應用系統以標準Web Services協定存取服務,由於本技術均依據標準架構與介面,因此具備容易依照規模擴充及容易與其他系統整合的特性。
技術現況敘述-英文: Uses decentralized architecture to build a cloud data storage center, can be expanded based on the scale of the power meter, can accommodate a large amount of user energy use data, and provide data access service interface for the back-end energy management applications to quickly search for energy use data.
技術規格: 本技術依照SOA(服務導向架構)建構分散式服務系統,服務存取介面則符合OGC(Open Geospatial Consortium)組織訂定的SWE(Sensor Web Enablement)標準,提供後端能源管理應用系統以標準Web Services協定存取服務,由於本技術均依據標準架構與介面,因此具備容易依照規模擴充及容易與其他系統整合的特性。
Conducts detection and analysis based on communication quality and inhibits communication circuit noise based on power circuit load changes and the degree of noise.
技術現況敘述-英文: Conducts detection and analysis based on communication quality and inhibits communication circuit noise based on power circuit load changes and the degree of noise.
Provides the user with a viewable interface through which the user can browse the system's communication network status. When the network is deployed, one can observe the deployment of the communication network through this interface for the deploying personnel can make timely correction.
技術現況敘述-英文: Provides the user with a viewable interface through which the user can browse the system's communication network status. When the network is deployed, one can observe the deployment of the communication network through this interface for the deploying personnel can make timely correction.
The smart modular sensing data processing platform is an important part of the entire sensing network application, which is responsible for receiving data from the WSN and providing the processing results to the superfluous complex event handling mechanism or directly to the results supply end for use. The purpose of this common platform is to structure an information processing backbone which contains the interface with the upper and lower layers as the mounting platform for processing a variety of signal modules. In this framework, the divide between the common platform and the underlying network will be the interface from the wireless sensor network to the server. Under the interface is the device which deals with the wireless data sensing, transmission, management and control. Over the interface, a connection layer connecting with a variety of different network types is needed, and it is necessary to unify the information from the network through common data types so that the information processing platform can be identified and distributed to a variety of different signal processing modules for processing.
技術規格
1.OGC Service Platform -SOS Service 2.OGC Service Platform -SPS Service 3.OGC Service Platform - WNS Service 4.OGC Service Platform - Sensor Adaptor
技術現況敘述-英文: The smart modular sensing data processing platform is an important part of the entire sensing network application, which is responsible for receiving data from the WSN and providing the processing results to the superfluous complex event handling mechanism or directly to the results supply end for use. The purpose of this common platform is to structure an information processing backbone which contains the interface with the upper and lower layers as the mounting platform for processing a variety of signal modules. In this framework, the divide between the common platform and the underlying network will be the interface from the wireless sensor network to the server. Under the interface is the device which deals with the wireless data sensing, transmission, management and control. Over the interface, a connection layer connecting with a variety of different network types is needed, and it is necessary to unify the information from the network through common data types so that the information processing platform can be identified and distributed to a variety of different signal processing modules for processing.
技術規格: 1.OGC Service Platform -SOS Service 2.OGC Service Platform -SPS Service 3.OGC Service Platform - WNS Service 4.OGC Service Platform - Sensor Adaptor