Start Rule

Abstract: PROBLEM TO BE SOLVED: To provide a frame of environment, capable of coordinating the management of on-vehicle equipment corresponding to the momently changing situation inside of a car, and enabling a driver to concentrate on the driving without being conscious of the management of the equipment. SOLUTION: A task starting rule for controlling on-vehicle equipment corresponding to the time, place and vehicle information, is stored in a task start rule storing part. The task start rule is collated by every prescribed time interval by a task start rule collating means 4 on the basis of the input from a time information evaluating means 21, a place information evaluating means 22, and a real-time information managing part 23, and the result is stored in a task start condition storing part 32. The task satisfied in the start condition is detected by a task start monitoring part 5 for checking the task start condition storing part 32 by every prescribed time interval, and output as an execution task. The execution task is transferred to a task preprocessing part 6 to execute the predetermined preprocessing, then the start condition is reconfirmed by a task start confirmating part 7, and the execution task is transferred to an on-vehicle equipment control part 8 to execute the control of the equipment. COPYRIGHT: (C)2000,JPO

Abstract: The research combines two heuristic algorithms, COMSOAL and Priority rule-based algorithm, to design a production scheduling algorithm. Meanwhile it refers to dispatching rule and wafer start rule. Also base on the requirements and characters of wafer foundry companies, it designs proper capacity constraint model and wafer start rule to construct production planning system. Using simple, fast and flexible methods to generate reasonable and feasible production plans. The results of the research can give the wafer foundry companies several contributions. First, it shortens the execution time of generating a production plan. It improves the flexibility and efficiency of production planning. Second, the resolution of production plan is raised from the summary of manufacturing process and product type to full product name of order and demand allocation. It improves the resolution and accuracy of information analysis. Third, the planning period of wafer start plan is improved as well. Last, the frequency of production planning operation is improved from once a fortnight to once a week.

Abstract: The invention is suitable for the field of communication, and provides an application function starting method, and the method comprises the steps: obtaining a touch event inputted by a user through a terminal when an application program is started; obtaining an application function start rule corresponding to the touch event according to the corresponding relation between a preset touch event and the application function start of the application program; and starting the application function of the application program according to the application function start rule. According to the invention, the method achieves the starting of the application function of the application program according to the obtained application function start rule through the corresponding relation between the preset touch event and the application function start of the application program, thereby facilitating the quick start of the application function of the application program, and improving the user experience.

Abstract: There is a necessary relatedness among the SDTM Trial Design domains, TA (Trial Arms) and TE (Trial Elements), and the special-purpose domain, SE (Subject Elements), that serves to convey both the planned (TE/TA) and actual (SE) treatment paths for a subject within a study. The SE domain is derived from the subject-level general observation class domains based on 1) the Start and End rules in TE, and 2) the Transition and Branching rules (TATRANS and TABRANCH) in the TA domain. The SDTMIG principles state that there are no gaps between Elements, meaning that the start date/time of an Element (SESTDTC) is the same as the end date/time of the previous Element (SEENDTC). The SE domain can be cumbersome to create if the code attempts to account for both the Start Rule and End Rule for each Element. This paper will discuss a streamlined process for deriving SESTDTC and SEENDTC by accounting for only the Start Rule (SESTDTC) for each Element, while including the End Rule (SEENDTC) in the code only if the subject does not fulfill the planned Start Rule of their next Element (e.g., due to study discontinuation, some other unplanned occurrence), or if it is the last Element.