INSTRUMENTING AN AIRBORNE NETWORK TELEMETRY LINK

Laird, Daniel, Temple, Kip

10 1900

ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / The Central Test and Evaluation Investment Program (CTEIP) Integrated Network Enhanced Telemetry (iNET) program is currently testing a wireless local area networking (WLAN) in an L-band telemetry (TM) channel to evaluate the feasibility and capabilities of enhancing traditional TM methods in a seamless wide area network (WAN). Several advantages of networking are real-time command and control of instrumentation formats, quick-look acquisition, data retransmission and recovery (gapless TM) and test point real-time verification. These networking functions, and all others, need to be tested and evaluated. The iNET team is developing a WLAN based on 802.x technologies to test the feasibility of the enhanced telemetry implementation for flight testing.

iNET

Network

Wide Area Network (WAN)

Local Area Network (LAN)

Wireless LAN (WLAN)

Telemetry Network System (TmNS)

THE FUTURE OF DATA ACQUISITION

Wexler, Marty

10 1900

International Telemetering Conference Proceedings / October 26-29, 1998 / Town & Country Resort Hotel and Convention Center, San Diego, California / The necessity to acquire and analyze data dates back to the beginning of science itself. Long ago, a scientist may have run experiments and noted the results on a piece of paper. These notes became the data. The method was crude, but effective. As experiments got more complex, the need for better methodologies arose. Scientists began using computers to gather, analyze, and store the data. This method worked well for most types of data acquisition. As the amount of data being collected increased, larger computers, faster processors, and faster storage devices were used in order to keep up with the demand. This method was more refined, but still did not meet the needs of the scientific community. Requirements began to change in the data acquisition arena. More people wanted access to the data in real time. Companies producing large data acquisition systems began to move toward a network-based solution. This architecture featured a specialized computer called the server, which contained all of the data acquisition hardware. The server handled requests from multiple clients and handled the data flow to the network, data displays, and the archive medium. While this solution worked well to satisfy most requirements, it fell short in meeting others. The ability to have multiple computers working together across a local or wide area network (LAN or WAN) was not addressed. In addition, this architecture inherently had a single point of failure. If the server machine went down, all data from all sources was lost. Today, we see that the requirements for data acquisition systems include features only dreamed of five years ago. These new systems are linked around the world by wide area networks. They may include code to command satellites or handle 250 Mbps download rates. They must produce data for dozens of users at once, be customizable by the end user, and they must run on personal computers (PCs)! Systems like these cannot work using the traditional client/server model of the past. The data acquisition industry demands systems with far more features than were traditionally available. These systems must provide more reliability and interoperability, and be available at a fraction of the cost. To this end, we must use commercial-off-the-shelf (COTS) computers that operate faster than the mainframe computers of only a decade ago. These computers must run software that is smart, reliable, scalable, and easy to use. All of these requirements can be met by a network of PCs running the Windows NT operating system.

Local Area Network (LAN)

Wide Area Network (WAN)

Windows NT

Graphical User Interface (GUI)

PCI

Distributed Processing (DP)

Symmetric Multi-Processing (SMP)

Information Technology Application on Customer Relationship Management for Steel Industry, an example of Sheng Yu Steel Co., Ltd.

Huang, Nelson

18 April 2001

The procedures of the study are mainly through the review on the relevant reference documents related to the subject of those have been published domestically and internationally, meanwhile to get a better understanding on the most recent development on Information Technology and its associated models which are being applied to the customer relationship management by the organizations and/or business units in the world. Then, through the investigation and review on steel industries to understand the real situations domestically and internationally, specifically to focus on the Sheng Yu Steel Co., Ltd. As an example, for which to plan the implementation of Extranet System for the improvement of Customer Relationship Management (CRM) by using Information Technology, what problems it will be faced and how is the best strategyfor this implementation. Then after the completion of the study, to make a constructive recommendation to the Sheng Yu Steel Co., Ltd as an useful reference when the Extranet system to be planned and implementedfor. In Chapter-1 ¡©Introduction¡ª¡Ato descibe the backgroud, purposes, procedures and the limitation related to the study¡Fin Chapter-2, the major is concentrate on the review and understand on the relevant documents of the subject related¡Fin Chapter-3, specifically to focus on the existing situations of the steel industries and the Sheng Yu Steel Co., Ltd. how it is the current situation to the subject issue¡Fin Chapter-4, to have further investigation on recent situations for the use of Information Technology in Sheng Yu Steel Co., Ltd. to make a recommendation for their reference whn they plan for the implementation of Extranet System for the improvement of Customer Relationship Management¡Fand finally, in Chapter-5, to describe the findings and issues for whicht to be expected to have further study in the future to come up a generalized model for which can be applied to all companies not only for steel industies but also to all conventional enpterprises as an important and valuable reference guideline.

Inter-Organization System¡]IOS¡^

Customer Relationship Management¡]CRM)

Customer Loyalty

Intranet

Information Technology¡]IT¡^

Internet

Extranet

Electronic Commerce¡]EC¡^

Data Base Marketing

Customer Value Management¡]CVM¡^

Local Area Network¡]LAN¡^

Network Marketing

One-to-One Marketing

Relationship Marketing

Transaction Marketing

Wide Area Network¡]WAN¡^

Web DM.