![]() CICS as a service provider and requester Overview of CICS as a service provider Inbound request processing Overview of CICS as a service requester Processing the outbound service request Local optimization CICS resources for Web services URIMAP PIPELINE WEBSERVICE TCPIPSERVICE Resources checklist Chapter 4. iiiĦ 2.8.2 Deploying CICS applications PIPELINE for message handling Message handlers for SOAP Web services resource definitions Chapter 3. Service-oriented architecture and CICS An introduction to SOA Basic components of an SOA solution Web services Properties of a Web service Web service standards WS standards in CICS TS Implementing Web services Implementing SOA on z/os Realizing that CICS assets can be SOA solutions Access to COMMAREA programs Access to terminal-oriented programs Channels and containers Advantages over COMMAREAs Channels Containers Data conversion Migrating COMMAREA to channels and containers Web services support in CICS TS V Web services assistant utility Copyright IBM Corp All rights reserved. ![]() Introduction Why we wrote this book Why use CICS Web services Application Development in CICS TS Access to CICS Application transformation WebSphere Message Broker and WMQ WebSphere MQ (WMQ) WebSphere Message Broker (WMB) The Change of Address application Chapter 2. Government Users Restricted Rights - Use, duplication or disclosure restricted by GSA ADP Schedule Contract with IBM Corp.ĥ Contents Notices vii Trademarks viii Preface ix The team that wrote this Redbooks publication ix Become a published author x Comments welcome xi Chapter 1. Copyright International Business Machines Corporation All rights reserved. First Edition (September 2007) This edition applies to Version 3, Release 1, CICS Transaction Server. The results presented here clearly illustrate the merits of using flow visualization to gain significant insight into the flow and its response to AFC.1 Front cover Developing Web Services Using CICS, WMQ, and WMB Bottom-up application design and re-use of traditional code Exposing applications as Web services Modern tooling techniques Chris Rayns David Carey Andrew Gardner Jenny Nott Adrian Simcock ibm.com/redbooksģ International Technical Support Organization Developing Web Services Using CICS, WMQ, and WMB September 2007 SGĤ Note: Before using this information and the product it supports, read the information in Notices on page vii. In keeping with the theme of this special issue, the flowfield properties and their response to actuation are examined through the use of various qualitative and quantitative flow visualization methods, such as smoke, shadowgraph, schlieren, planar-laser scattering, and Particle image velocimetry (PIV). In addition, properties of zero-net mass-flux (ZNMF) actuators are also discussed as they represent one of the most widely studied actuators used for AFC. ![]() The case studies include subsonic and supersonic canonical flowfields such as separation control over airfoils, control of supersonic cavity flows and impinging jets. In this paper we review some of our recent applications of AFC through a number of case studies that illustrate the typical benefits as well as limitations of present AFC methods. High-speed AFC applications include control of flow oscillations in cavity flows, supersonic jet screech, impinging jets, and jet-noise control. These applications are wide and varied, such as controlling flow transition and separation over various external components of the aircraft to active management of separation and flow distortion in engine components and over turbine and compressor blades. AFC applications range from the subsonic to the supersonic (and beyond) regime for both internal and external flows. This is mainly due to the potentially substantial benefits it affords. Active flow control (AFC) has been the focus of significant research in the last decade.
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