IoT Sample Clauses

IoT est The EC project IoT.est10 is focused on providing a service creation environment architecture that is designed to accelerate the introduction of new IoT enabled business services. This architecture will be designed to enable the orchestration of business services based on re- usable IoT service components, self-management components for automated configuration and testing and the abstraction of the heterogeneity of underlying technologies. As such, the project brings together the three disciplines of Internet of Things, service engineering and testing. In the current Internet of Things, services are many times specifically created for applications and domains, and therefore a high heterogeneity of networks, communication protocols and information types exists. For that reason, a very important issue is the need for interoperability between these solutions. One of the goals of the project is therefore the implementation of a service creation environment that overcomes the heterogeneity between networked sensors and objects. IoT.est focuses on four key issues: first the project researches methods to semi-automatically derive services and related tests from semantic service descriptions; the second goal is to integrate testing into a service creation environment and support an incremental service evolution; the third goal is to further the definition of a framework for service validation tests that includes automated deployment procedures based on semantics lies in the focus of the project; the final goal is to pursue the development of run-time monitoring to enable Quality of Service. The overall aim is to semi-automatically derive services and related tests from a so-called “semantic service”, including a high-level semantic description of service resources, network attributes and service test procedures. As a basis for the semantic description of service resources, the OWL ontology from the IoT-A project is reused. The main contribution of the work is an IoT service creation environment able to compose business services based on domain and environment knowledge10. Additionally re-usable IoT service components should be identified and evaluated by integrating testing in all phases of the service cycle. Therefore, test components and automated test mechanisms support IoT service development and provisioning in large scale infrastructures.
Sample 1
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Related to IoT

  • Supervisory Control and Data Acquisition (SCADA) Capability The wind plant shall provide SCADA capability to transmit data and receive instructions from the ISO and/or the Connecting Transmission Owner for the Transmission District to which the wind generating plant will be interconnected, as applicable, to protect system reliability. The Connecting Transmission Owner for the Transmission District to which the wind generating plant will be interconnected and the wind plant Developer shall determine what SCADA information is essential for the proposed wind plant, taking into account the size of the plant and its characteristics, location, and importance in maintaining generation resource adequacy and transmission system reliability in its area.

  • Architecture The Private Improvements shall have architectural features, detailing, and design elements in accordance with the Project Schematic Drawings. All accessory screening walls or fences, if necessary, shall use similar primary material, color, and detailing as on the Private Improvements.

  • Schematic Design Phase Services § 3.2.1 The Architect shall review the program and other information furnished by the Owner, and shall review laws, codes, and regulations applicable to the Architect’s services.

  • Network Interconnection Architecture Each Party will plan, design, construct and maintain the facilities within their respective systems as are necessary and proper for the provision of traffic covered by this Agreement. These facilities include but are not limited to, a sufficient number of trunks to the point of interconnection with the tandem company, and sufficient interoffice and interexchange facilities and trunks between its own central offices to adequately handle traffic between all central offices within the service areas at P.01 grade of service or better. The provisioning and engineering of such services and facilities will comply with generally accepted industry methods and practices, and will observe the rules and regulations of the lawfully established tariffs applicable to the services provided.

  • Construction Documents Phase Services 3.4.1 Based on the Owner’s approval of the Design Development Documents, and on the Owner’s authorization of any adjustments in the Project requirements and the budget for the Cost of the Work, the Architect shall prepare Construction Documents for the Owner’s approval. The Construction Documents shall illustrate and describe the further development of the approved Design Development Documents and shall consist of Drawings and Specifications setting forth in detail the quality levels and performance criteria of materials and systems and other requirements for the construction of the Work. The Owner and Architect acknowledge that, in order to perform the Work, the Contractor will provide additional information, including Shop Drawings, Product Data, Samples and other similar submittals, which the Architect shall review in accordance with Section 3.6.4.

  • Design Phase Services § 3.2.1 The Architect shall review the program and other information furnished by the Owner, and shall review laws, codes, and regulations applicable to the Architect’s services.

  • Configuration Management The Contractor shall maintain a configuration management program, which shall provide for the administrative and functional systems necessary for configuration identification, control, status accounting and reporting, to ensure configuration identity with the UCEU and associated cables produced by the Contractor. The Contractor shall maintain a Contractor approved Configuration Management Plan that complies with ANSI/EIA-649 2011. Notwithstanding ANSI/EIA-649 2011, the Contractor’s configuration management program shall comply with the VLS Configuration Management Plans, TL130-AD-PLN-010-VLS, and shall comply with the following:

  • Acceptance Testing At the time of installation of a LIS trunk group, and at no additional charge, acceptance tests will be performed to ensure that the service is operational and meets the applicable technical parameters.

  • Verizon Operations Support Systems Verizon systems for pre- ordering, ordering, provisioning, maintenance and repair, and billing.

  • ACCESS TO OPERATIONS SUPPORT SYSTEMS 2.1 BellSouth shall provide Max-Tel access to operations support systems (“OSS”) functions for pre-ordering, ordering and provisioning, maintenance and repair, and billing. BellSouth shall provide access to the OSS through manual and/or electronic interfaces as described in this Attachment. It is the sole responsibility of Max-Tel to obtain the technical capability to access and utilize BellSouth’s OSS interfaces. Specifications for Max-Tel ’s access and use of BellSouth’s electronic Version R4Q01: 12/01/01 interfaces are set forth at xxx.xxxxxxxxxxxxxxx.xxxxxxxxx.xxx and are incorporated herein by reference.

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