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1.1 root 1: Practical Perspectives on OSI Networking (2 days)
2:
3: Christopher W. Moore and Marshall T. Rose
4: The Wollongong Group, Inc.
5:
6: Overview
7:
8: Based on international cooperative work, it is commonly
9: acknowledged that protocols based on the Open Systems
10: Interconnection (OSI) model and promulgated by the International
11: Organization for Standardization (ISO) and the International
12: Electrotechnical Commission (IEC) will eventually achieve dominance
13: and enjoy even greater success than current networking
14: technologies.
15:
16: This two day tutorial provides a practical perspective on the
17: issues involved in developing and deploying OSI networks.
18: Organized for those with a basic familiarity with OSI and with
19: practical networking experience, the presentation will provide a
20: more comprehensive understanding of the OSI Reference Model, OSI
21: application and network services as well as a detailed
22: understanding of various transition strategies which may be
23: utilized in the realization of OSI networks from existing
24: technology, in particular TCP/IP based networks.
25:
26:
27: What You Will Learn
28:
29: You will achieve a thorough understanding of the technology
30: involved in developing OSI applications, building OSI networks, and
31: transiting to (or coexisting with) TCP/IP-based networks.
32:
33:
34: Syllabus
35:
36: - OSI Application Services
37:
38: A discussion of current OSI applications and how they may be used
39: to build new applications. Of interest to both System
40: Administrators and Application Developers, topics include:
41:
42: - The OSI applications environment: concepts, service elements,
43: and programmer tools
44:
45: - Use of standard OSI applications: the Directory, Message
46: Handling Systems, and File Transfer, Access and Management
47:
48: - OSI Network Services
49:
50: A discussion of current OSI network and transport technologies
51: and how they may be used to build networks. Of interest to
52: Network Administrators, topics include:
53:
54: - The OSI network environment: concepts, building blocks, and
55: connectivity
56:
57: - Comparison with relevant TCP/IP technology: complexity,
58: administration, and performance
59:
60:
61: - Transition from and Coexistence with TCP/IP
62:
63: A discussion of how existing, production TCP/IP-based networks
64: may either transition to OSI, or coexist with OSI for maximal
65: functionality. Of interest to both Network Administrators and
66: Systems Administrators, topics include:
67:
68: - Motivation and Background: concepts, terminology, and metrics
69: of comparison
70:
71: - Approaches: both protocol-based and service-based
72:
73: - Examples: scenarios for different environments
74:
75:
76: Who Should Attend
77:
78: This tutorial is intended for professionals interested in planning,
79: implementing, or managing OSI networks. A basic familiarity with
80: networking and OSI is assumed. Detailed knowledge of the protocols
81: is not required.
82:
83:
84: Speakers
85:
86: Chris Moore is a Senior Software Engineer with The Wollongong
87: Group, Inc., in Palo Alto, California, where his responsibilities
88: include Directory Services as well as Message Handling Systems. He
89: is involved with national and international working groups in these
90: areas and presently serves as Vice Chairman of the U.S. National
91: Bureau of Standards Implementors Workshops special interest group
92: on Directory Services. Prior to joining Wollongong, Moore was a
93: Systems Research Programmer with The University of Michigan
94: Computing Center in Ann Arbor, Michigan.
95:
96: Marshall T. Rose is a Principal Software Engineer at The Wollongong
97: Group, Inc., where he works on OSI protocols and transition
98: strategies. He is the principal implementor of the ISO Development
99: Environment (ISODE), an openly available implementation of the
100: upper layers of the OSI protocol suite. He was co-author of
101: RFC1006 (ISO Transport Services on top of the TCP), and was a
102: member of the IFIP working group committee whose efforts led to
103: RFC987 (Mapping between X.400 and RFC822). He is currently an
104: advisor to the National Science Foundation, serving on its Network
105: Technical Advisory Group. Rose received the Ph.D. degree in
106: Information and Computer Science from the University of California,
107: Irvine, in 1984.
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