PROJECT ENGINEERING FEASIBILITY ASSESSMENT AND CONCEPT SHEETS Sample Clauses

PROJECT ENGINEERING FEASIBILITY ASSESSMENT AND CONCEPT SHEETS. Up to 15 project concept sheets will be prepared by a Civil Engineer and Traffic Engineer for the up to five multimodal corridors and 10 improvement areas resulting from the recommendations in Tasks 4.2 and 4.3 and from the project prioritization established in Task 5. The detailed concepts sheets will include a description, need, and a detailed project scope. Field investigation shall be conducted in order to get an understanding of what would be involved in implementing each particular project including but not limited to, an understanding right-of-way (ROW) property lines, land acquisition, and drainage, and any other information needed to estimate the cost and next steps in implementing improvements that result from the CATS. Engineering feasibility assessment plans will be prepared at an appropriate scale to illustrate the feasibility of the recommended changes and will be prepared over an aerial photograph. Detail on the Feasibility Assessment Plans will illustrate the existing ROW, existing and proposed curb locations, sidewalk, parkways or planting strips, transit stop locations and features, parking, pavement striping including bicycle facility design, traffic signal or other traffic control devices, and recommended public space areas. Plans will not include design of stormdrain facilities, grading, retaining wall design, landscape or other details.
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Related to PROJECT ENGINEERING FEASIBILITY ASSESSMENT AND CONCEPT SHEETS

  • Reverse Engineering The Customer must not reverse assemble or reverse compile or directly or indirectly allow or cause a third party to reverse assemble or reverse compile the whole or any part of the software or any products supplied as a part of the Licensed System.

  • Geotechnical Engineer « »« » « » « » « » « »

  • Investment Analysis and Implementation In carrying out its obligations under Section 1 hereof, the Advisor shall: (a) supervise all aspects of the operations of the Funds; (b) obtain and evaluate pertinent information about significant developments and economic, statistical and financial data, domestic, foreign or otherwise, whether affecting the economy generally or the Funds, and whether concerning the individual issuers whose securities are included in the assets of the Funds or the activities in which such issuers engage, or with respect to securities which the Advisor considers desirable for inclusion in the Funds' assets; (c) determine which issuers and securities shall be represented in the Funds' investment portfolios and regularly report thereon to the Board of Trustees; (d) formulate and implement continuing programs for the purchases and sales of the securities of such issuers and regularly report thereon to the Board of Trustees; and (e) take, on behalf of the Trust and the Funds, all actions which appear to the Trust and the Funds necessary to carry into effect such purchase and sale programs and supervisory functions as aforesaid, including but not limited to the placing of orders for the purchase and sale of securities for the Funds.

  • Architect/Engineer (A/E) means a person registered as an architect pursuant to Tex. Occ. Code ▇▇▇., Chapter 1051, as a landscape architect pursuant to Tex. Occ. Code ▇▇▇., Chapter 1052, a person licensed as a professional engineer pursuant to Tex. Occ. Code ▇▇▇., Chapter 1001 and/or a firm employed by Owner or a design-build contractor to provide professional architectural or engineering services and to exercise overall responsibility for the design of a Project or a significant portion thereof, and to perform the contract administration responsibilities set forth in the Contract.

  • Value Engineering The Supplier may prepare, at its own cost, a value engineering proposal at any time during the performance of the contract. The value engineering proposal shall, at a minimum, include the following; a) the proposed change(s), and a description of the difference to the existing contract requirements; b) a full cost/benefit analysis of the proposed change(s) including a description and estimate of costs (including life cycle costs) the Procuring Entity may incur in implementing the value engineering proposal; and c) a description of any effect(s) of the change on performance/functionality.