Crash test methods for some typical run off road scenarios are suggested. An outline of principle test methods for evaluating technology assisting the driver to stay on the road is presented in relation to the identified situations and mechanisms. There are a number of reasons for leaving the road driver fatigue, driver distraction and inadequate speed in relation to the traffic situation to mention a few. Mechanisms and influencing factors are identified using statistical and in-depth crash data as well as driving data. The objective of this study is to identify different situations and mechanisms both in respect to accident avoidance and occupant protection and to present test methods addressing the different identified mechanisms of. The reasons for leaving the road are numerous and the sequence the car is exerted to differs in most events. Run off road events are frequent and can result in severe consequences. Those experimental and analytical efforts have shown that key technologies to develop simplified fuel handling system are matured enough to proceed large-scale sodium experiments and conceptual design study for the demonstration JSFR. For fresh fuel shipping cask, a design tool for evaluation of heat transfer capability has been developed and a helium gas cask shows cooling capability of minor actinide-bearing fresh fuel. Several sodium cleaning tests using a dummy subassembly has been conducted accumulating cleaning performance data. A mockup fuel transfer pot with fins and chromium carbide coating has been fabricated and tested with sodium accumulating heat transfer performance data. A full-scale FHM mockup has been fabricated and tested in the air accumulating performance and seismic tolerance data. Fast Reactor Cycle Technology Development project phase I results of key technology evaluations on a pantograph fuel handling machine (FHM), a fuel transfer pot with two core component positions, dry spent fuel cleaning and minor actinide-bearing fresh fuel shipping cask are. The obtained tool has been used in teaching and in the system databases’ conceptual design which have been applied to different companies.Ī simplified fuel handling system design for the demonstration Japan sodium-cooled fast reactor (JSFR) has been proposed. All of this contributes to a better representation of the universe of discourse and to reduce possible mistakes from earlier stages of the applications’ cycle of life. This Thesis sums up the results from an investigation about the obtainment of a CASE tool with a strong theoretical support that covers a wide variety of constructions where a new notation for modeling association interrelations with existence dependence and the schemes’ validation that covers -in an original way- the conceptual and logical modeling are included. This situation takes place due to the lack of systematicity concerning the theoretical developments, notations and constructions associated with the different extensions of the Entity Relation model. They have also a lack of commitment with the logical schemes that are generated. The current tools for helping databases’ conceptual design have limitations related to the conceptual schemes’ expressivity and consistency. The aim of this chapter is to survey these products to give the reader a taste for the capabilities they provide. Each of these companies offers feature-rich technology for developing logical database designs and transitioning them into physical databases you can use. This chapter explores the offerings of the major vendors in this space: IBM, Computer Associates, and Sybase. Logical database design is another area where CASE tools have proven effective. CASE tools are widely used in numerous industries and domains, such as circuit design, manufacturing, and architecture. These computer-aided system engineering, or CASE, tools provide functions that assist in system design. This chapter focuses on commercially available tools that simplify these design processes. Database design is just one part of the analysis and design phase of creating effective business application software, but it is often the part that is the most challenging and the most critical to perform. There are several good CASE tools available for computer- assisted database design.
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