FUNCTIONAL CAPABILITIES Sample Clauses

FUNCTIONAL CAPABILITIES. The system software must be able to detect either approaching or departing vehicles in multiple traffic lanes. A minimum of 4 detector outputs per video processor module card and each card must have a minimum of 24 detection zones. Each zone and output must be user definable through interactive graphics by placing lines or boxes in an image on a video or VGA monitor. The user must be able to redefine previously defined detection zones. The VIVDS must provide real time vehicle detection (within 112 milliseconds (ms) of vehicle arrival). The VIVDS processor unit must be capable of simultaneously processing information from various video sources, including CCTV video image sensors and video tape players. The video sources may be, but are not required to be, synchronized or line-locked. The video must be processed at a rate of 30 times per second by the VIVDS processor unit. The system must be able to detect the presence of vehicles in a minimum of 12 detection zones within the combined field of view of all cameras (a minimum of 12 detection zones per camera input to the VIVDS processor unit). Provide detection zones that are sensitive to the direction of vehicle travel. The direction to be detected by each detection zone must be user programmable. The VIVDS processor unit must compensate for minor camera movement (up to 2% of the field of view at 400 ft.) without falsely detecting vehicles. The camera movement must be measured on the unprocessed video input to the VIVDS processor unit. The camera must operate while directly connected to VIVDS Processor Unit. Once the detector configuration has been downloaded or saved into the VIVDS processor unit, the video detection system must operate with the monitoring equipment (monitor or laptop) disconnected or online. When the monitoring equipment is directly connected to the VIVDS processor unit, it must be possible to view vehicle detections in real time as they occur on the field setup computer's color VGA display or the video monitor.

FUNCTIONAL CAPABILITIES. Capability Name Description of the behaviour expected for the proficiency level Programme Lifecycle & Food Assistance Displays ability to identify the main hunger problem at the national or subnational level to design and implement context-specific programmes that integrate complex analysis and the full range of food assistance tools. Transfer Modalities (Food, Cash, Voucher) Demonstrates ability to analyse and consolidate quantitative and qualitative information from different sources (e.g., market studies) to inform transfer modality selection and programme development. Broad Knowledge of Specialized areas (i.e. Nutrition, VAM, etc.) Demonstrates the ability to interpret basic data in the context of WFP specialised fields to contribute to technical programme design, implementation and monitoring. Emergency Programming Displays ability to translate understanding of programme principles in emergencies and protracted conflict situations into relevant, effective, and context specific approaches. Strategic Policy Engagement w/ Government Develops thorough recommendations using multiple inputs (e.g., government counsel, research, own experience) to strengthen national or subnational entities and government owned food and nutrition security programmes. • Quality Roll out of nutrition and school feeding programme in line with the country strategic plan and corporate polices. • Data, evidence and analysis are available to support and inform WFP nutrition and school feeding operations; best practices and results are adequately documented and reported. • Key operational synergies are established between nutrition, school feeding small holder farmers and supply chain and innovation thereby increasing their ability to address vulnerabilities and achieve impact • A broader portion of the food required for the nutrition and school feeding programme is procured nationally or locally. • WFP nutrition and school feeding leveraged to their best potential to overcome prevailing gender inequities.

FUNCTIONAL CAPABILITIES. The real-time, detection performance of the machine video processor (MVP) detection module shall be optimized to meet the detection objective of the traffic application. The detection objective determines sensor mounting location; the number of traffic lanes to monitor; sizing, placement, and orientation of vehicle detectors; and how to minimize the effects of lane-changing maneuvers.

FUNCTIONAL CAPABILITIES. Capability Name Description of the behaviour expected for the proficiency level Programme Lifecycle & Food Assistance Displays ability to identify the main hunger problem at the national or subnational level to design and implement context-specific programmes that integrate complex analysis and the full range of food assistance tools. Transfer Modalities (Food, Cash, Voucher) Demonstrates the ability to design, implement, monitor and provide oversight over effective and efficient programmes deploying different transfer modalities. Broad Knowledge of Specialized areas (i.e. Nutrition, VAM, etc.) Demonstrates the ability to interpret basic data in the context of WFP specialised fields to contribute to technical programme design, implementation and monitoring. Emergency Programming Displays ability to translate understanding of programme principles in emergencies and protracted conflict situations into relevant, effective, and context specific approaches Strategic Policy Engagement w/ Government Develops thorough recommendations using multiple inputs (e.g., government counsel, research, own experience) to strengthen national or subnational entities and government owned food and nutrition security programmes..

FUNCTIONAL CAPABILITIES. This section describes the functional capabilities of the proposed software components.

FUNCTIONAL CAPABILITIES. The RNM is constantly communicating with registered objects connected to the RNM to ensure that they are functioning properly or reporting discrepancies.

FUNCTIONAL CAPABILITIES a. Pavilion can view and control the computer desktop, including use of the “start” button and viewing programs running locally on the computer. b. While working via remote access, Pavilion has an account with privileges sufficient to perform application engineering activities. c. The remote access link must allow bi-directional file transfer capability for both ASCII and binary files. d. The remote access link must allow a remote user to browse to all Pavilion application web pages from the local system desktop. e. For sites with Pavilion applications on multiple computers, the remote access host must allow the remote user to tunnel (extend) remote access from the remote access host through the Customer network to additional computers through the use of VNC, PcAnywhere, Timbuktu, Remote Desktop or other remote access software.