Laserfiche WebLink
<br />e <br /> <br />. <br /> <br />. <br /> <br />. <br /> <br />e <br /> <br />PREFACE <br /> <br />This paper has four parts, each designed for a different target group. <br />Therefore, each part is designed to stand alone, even though some readers may <br />belong to more than one target group. <br /> <br />Part I. Applications. This part is written as an overview for managers <br />and first-time potential users. It is designed to: (1) explain the objective <br />and scope of the model; (2) provide guidance regarding basic data sources; <br />(3) provide guidance on the use of the different solution techniques avail- <br />able; and (4) provide examples that illustrate the use of the model. <br /> <br />Part II. Physical Processes and Math Models. <br />the hydrologist or hydraulic engineer responsible <br />results. The fundamental principles involved and <br />describe them are explained in detail. <br /> <br />This part is written for <br />for the physical modeling <br />the math model s used to <br /> <br />Part III. User's Manual. This part is written for the technician who <br />will actually be doing the calculations. It describes the various solution <br />techniques available, their input requirements, and their scope of program <br />coverage. At the moment, none of the sol ut ion techn i ques solve the entire <br />model, not even the mainframe computer program. However, most model components <br />can be solved by one or more of the solution techniques. <br /> <br />Part IV. Software Support Documentation. This part is written for the <br />ADP/engineering staff responsible for supporting each solution technique(s). <br />.... It provides a comprehensive program description for each solution technique. <br />This part also provides, for each solution technique, information useful for <br />purposes of maintainence, modification, transportability, and linkage to other <br />re 1 a ted mode 1 s . <br /> <br />.. <br /> <br />e <br /> <br />i i i <br />