基於CWMP與OAuth的智慧家庭服務維運管理架構 / Toward a CWMP and OAuth Compatible Operations Management Architecture for Smart Home Services

王依晴, Wang, Yi Ching

Unknown Date

隨著資訊及通訊技術的快速發展，智慧家庭技術日漸成熟，使得人們的家居生活環境更加便利。由於智慧家庭中技術多元，不同廠商所生產的設備互不相通，導致其操作及安裝程序複雜，影響人們的使用意願，使得目前智慧家庭的願景仍不普及。本論文主要為利用CWMP結合OAuth建立出一個功能完整的智慧家庭服務管理架構，同時兼顧服務使用者與服務供應者的需求，整合家庭內部與外部之間的互動，提供遠端購買模組、佈署服務、監控、計費以及自動偵錯與恢復等管理功能，亦加入了授權與認證規範，期望能提供更完善的管理架構，使得每個家庭雖然由不同的服務與設備組成，但皆能透過同一種技術進行管理，以利智慧家庭維運技術的發展。 / With the rapid development of Information and Communications Technology (ICT), smart home technology has become more and more mature. The applications of smart home technology are still not popular because home devices are usually made by different vendors and thus are not compatible. As a result, the management and setup procedures of these smart home products are complicated. This thesis presents the design and implementation of a CWMP and OAuth based operations management architecture that supports remote purchasing of services and components, deployment of services, diagnosis, billing of service usage and autonomic failure detection and recovery of services. The architecture uses OAuth for supporting security functions of users’ private information. It is expected that the proposed architecture can facilitate the practical applications of smart home technology and provide a reference design for designing operations management mechanisms for smart homes.

智慧家庭

遠端管理

CWMP

TR-069

OAuth

Smart Home

Remote Management

CWMP

TR-069

OAuth

資源導向智慧家庭服務維運機制的設計與實現 / Design and implementation of a resource-oriented smart home service operation management platform

陳映如

Unknown Date

智慧家庭的概念早在半世紀前就被提出,但至今仍被認為是豪宅的配備, 到目前為止也沒有「智慧家庭產業」出現。解決智慧家庭系統的維運議題, 是智慧家庭技術普及化,進而形成產業的重要前提。Broadband Forum 所提 出的 CWMP 是目前較普及與成熟的維運技術,但 CWMP 在軟體架構與軟 體設計上仍具有改善空間,包含用企業級技術來定義嵌入裝置規範,導致 效能與擴充性不佳;領域模型設計不良,開發人員難以學習與理解,以及 Web 回呼(Callback)機制未臻完善,無法彈性應對各種裝置回呼狀況。針對 這些議題,本論文提出以資源導向架構風格來改良 CWMP,並針對現行各 種 Web Callback 機制做實驗與分析,評估適合 CWMP 應用場域中的 Callback 機制,基於上述機制,建構基於資源導向架構的 CWMP 智慧家庭服務維運 平台,並透過實驗與實作應用情境,並驗證其功能完備性、效能及實務上 之可行性。 / The vision of smart home has been depicted for over a half-century. Nevertheless, Smart Home technologies are still not widely deployed in most people’s living spaces. The main reason is that operations management technologies for smart home such as remote deployment, monitoring, and maintenance are not well studied and only a few attempts have so far been made toward this aspect. CWMP, proposed by Broadband Forum, is a promising standard for realizing a Smart Home operations management platform. Several design issues, namely, poor performance and scalability, poor domain model design and inappropriate web callback architecture, have been identified. The objective of this thesis is, therefore, to deal with the issues mentioned above by suggesting a set of new ways to design CWMP functionalities. The overall approach is based on the RESTful architectural style. Finally, the proposed designs are realized as an operations management platform prototype. Validations and experiments are performed to verify the effectiveness of the proposed approach.

智慧家庭

維運

CWMP

資源導向架構

Smart environments

Smart home

CWMP

Operations management

Resource-Oriented architecture

REST

Design and Implementation of a Framework for Self-Configuring Devices Using TR-069

Rachidi, Houda

22 March 2011

Communication network technologies have been evolving exponentially in the late decades. These innovations increase the network capabilities and open new horizons to creating novel and original services. The heterogeneity in equipment qualifications increases the level of complexity in the technological advancement. In such environment, service management has become an everyday challenge to service providers. Important efforts have been deployed to innovate in the exploitation of intelligent devices in the home and other private locations. In this Thesis, we propose a framework for self-configuration of devices within Hone Area Networks. We propose a device self-configuration architecture based on IBM Monitor-Analyze-Plan-Execute using Knowledge autonomic control loop. To prove the validity of our system architecture and support its applicability, we developed a prototype system that gives a general control loop implementation for device self-configuration using the CPE WAN Management Protocol. A video streaming scenario is implemented and used to evaluate validity our framework.

Device Self-configuration

TR-069

CWMP

autonomic control loop

IBM MAPE-K

Design and Implementation of a Framework for Self-Configuring Devices Using TR-069

Rachidi, Houda

22 March 2011

Communication network technologies have been evolving exponentially in the late decades. These innovations increase the network capabilities and open new horizons to creating novel and original services. The heterogeneity in equipment qualifications increases the level of complexity in the technological advancement. In such environment, service management has become an everyday challenge to service providers. Important efforts have been deployed to innovate in the exploitation of intelligent devices in the home and other private locations. In this Thesis, we propose a framework for self-configuration of devices within Hone Area Networks. We propose a device self-configuration architecture based on IBM Monitor-Analyze-Plan-Execute using Knowledge autonomic control loop. To prove the validity of our system architecture and support its applicability, we developed a prototype system that gives a general control loop implementation for device self-configuration using the CPE WAN Management Protocol. A video streaming scenario is implemented and used to evaluate validity our framework.

Device Self-configuration

TR-069

CWMP

autonomic control loop

IBM MAPE-K

Design and Implementation of a Framework for Self-Configuring Devices Using TR-069

Rachidi, Houda

22 March 2011

Communication network technologies have been evolving exponentially in the late decades. These innovations increase the network capabilities and open new horizons to creating novel and original services. The heterogeneity in equipment qualifications increases the level of complexity in the technological advancement. In such environment, service management has become an everyday challenge to service providers. Important efforts have been deployed to innovate in the exploitation of intelligent devices in the home and other private locations. In this Thesis, we propose a framework for self-configuration of devices within Hone Area Networks. We propose a device self-configuration architecture based on IBM Monitor-Analyze-Plan-Execute using Knowledge autonomic control loop. To prove the validity of our system architecture and support its applicability, we developed a prototype system that gives a general control loop implementation for device self-configuration using the CPE WAN Management Protocol. A video streaming scenario is implemented and used to evaluate validity our framework.

Device Self-configuration

TR-069

CWMP

autonomic control loop

IBM MAPE-K

Design and Implementation of a Framework for Self-Configuring Devices Using TR-069

Rachidi, Houda

January 2011

Communication network technologies have been evolving exponentially in the late decades. These innovations increase the network capabilities and open new horizons to creating novel and original services. The heterogeneity in equipment qualifications increases the level of complexity in the technological advancement. In such environment, service management has become an everyday challenge to service providers. Important efforts have been deployed to innovate in the exploitation of intelligent devices in the home and other private locations. In this Thesis, we propose a framework for self-configuration of devices within Hone Area Networks. We propose a device self-configuration architecture based on IBM Monitor-Analyze-Plan-Execute using Knowledge autonomic control loop. To prove the validity of our system architecture and support its applicability, we developed a prototype system that gives a general control loop implementation for device self-configuration using the CPE WAN Management Protocol. A video streaming scenario is implemented and used to evaluate validity our framework.

Device Self-configuration

TR-069

CWMP

autonomic control loop

IBM MAPE-K