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Transcript 
Pertemuan ke-2
Imam Suharjo
http://imam.mercubuana-yogya.ac.id



Kondisi Berbagai Teknologi dengan berbagai
macam jenis hardware, merek dan software yang
beragam.
Coba bayangkan, Bagaimana jika mereka saling
terhubung tanpa ada aturan yang jelas?
Ibaratnya jika manusia di bumi ini ada berbagai
negara, punya bahsa masing-masing. Bagaimana
supaya antar bahasa yang berbeda tadi bisa
berkomunikasi secara lancar?



ISO (International Organization for
Standarrization) membuat standar terkait dengan
Jaringan Komputer.
ISO pada akhirnya membuat standar OSI (Open
System Interconnection) untuk menjebanati
perbedaan hardware, pengembang dan software
supaya seragam dan bisa saling berkomunikasi
secara baik (kompatibel).
OSI terdiri dari lapisan-lapisan untuk membagi
kompleksitas data.


Model Referensi OSI terdiri dari 7 layer (lapisan)
Berikut gambarand ari Lapisan yang ada dan
hubungan Komunikasi Peer to Peer.
Aplikasi
-------------------
Aplikasi
Presentasi
-------------------
Presentasi
Sesi
-------------------
Sesi
Transport
-------------------
Transport
Network
-------------------
Network
Data Link
-------------------
Data Link
Fisik
-------------------
Fisik


Protokol TCP/IP dikembangkan pada akhir
dekade 1970-an hingga awal 1980-an sebagai
sebuah protokol standar untuk menghubungkan
komputer-komputer dan jaringan untuk
membentuk sebuah jaringan yang luas (WAN).
TCP/IP merupakan sebuah standar jaringan
terbuka yang bersifat independen terhadap
mekanisme transport jaringan fisik yang
digunakan, sehingga dapat digunakan di mana
saja.

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

Transmission Control Protocol / Internet Protocol
(TCP/IP) bertugas menerima pesan elektronik dengan
panjang 64 kb.
Protokol menggunakan skema pengalamatan yang
disebut sebagai alamat IP (IP Address) yang
mengizinkan komputer untuk dapat saling
berhubungan di Internet.
Protokol ini juga bersifat routable yang berarti protokol
ini cocok untuk menghubungkan sistem-sistem
berbeda (seperti Microsoft Windows dan keluarga
UNIX) untuk membentuk jaringan yang heterogen.
Protokol TCP/IP menjadi standar dalam komuniaksi
Internet (komunikasi berbasis IP).

Ada perbedaan antara OSI dan TCP /IP
Model TCP/IP
Model OSI
Aplikasi
Aplikasi
-------------------
Presentasi
Sesi
Transport
-------------------
Transport
Internet
-------------------
Network
Network Access
-------------------
Data Link
Fisik
Tugas untuk NIM Ganjil :
1.
Jelaskan prinsip-prinsip apa saja yang digunakan
bagi ke tujuh layer OSI?
2.
Dalam lapisan Fisik, salah satunya bisa
menggunakan kabel UTP Cat-5 atau Cat-6,
perbedaannya apa?
3.
Dalam model TCP/IP pada proses pengiriman jika
terjadi kerusakan/gagal, apa yang akan dilakukan?
NIM Genap :
1.
Jelaskan prinsip-prinsip apa saja yang digunakan
bagi ke tujuh layer OSI?
2.
Dalam lapisan Fisik, salah satunya bisa
menggunakan kabel Type STP atau UTP
perbedaannya apa?
3.
Apa perbedaan umum antara TCP dan UDP?



Jariangan Komputer, Anjik Sukmaaji & Riyanto
http://www.skullbox.net/tcpudp.php
TCP/ IP,
http://id.wikipedia.org/wiki/Transmission_Control_
Protocol/Internet_Protocol
An overview
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International Organization for Standardization
ISO http://www.iso.org
70’s IBM, DEC, Honeywell, Burroughs were all
developing proprietary architecture and layered
communication models
1977-1984 ISO released the Open Systems
Interconnection Reference Model (OSI)
Provides modularity to systems developers

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Application
Presentation
Session
Transport
Network
Data Link
Physical

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
The topmost layer provides the interface that a
person uses to interact with the application.
Examples are: telnet, FTP, Web Browsers, Email
Many more apps are now network aware; ex. are
Microsoft Word

The presentation layer is responsible for defining
how information is presented to the user in the
interface (application layer) that they are using.
Examples of presentation layer protocols and
standards include ASCII, BMP, GIF, JPEG, WAV,
AVI, and MPEG.

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
The session layer is responsible for establishing,
maintaining, synchronizing and terminating
network connections.
Ex. File transfer – session layer establishes
connection, reestablishes if lost, terminates when
finished
Examples include RPC’s (remote procedure calls)
and NFS (Network File System)
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The fourth layer, the transport layer, provides both
guaranteed data delivery and no guarantee of data
delivery.
Examples include the Internet Protocol’s (IP) TCP
(transport control protocol) and UDP (user datagram
protocol) protocols.
Connection oriented/reliable (TCP) or
connectionless (UDP) data transmissions
Sequencing of data packets so they can be
reassembled at destination
Identification of service addresses (ports) at the
destination devices

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Adds network and node addressing information to
the data frames
Packet creation and packet sequence control
Support services to the transport layerand data
preparation to the data link layer
Route discovery and determination of best route
between networks
The network layer provides a logical topology and
layer-3 addresses.
Routers function at the network layer
Layer 3 protocols include TCP/IP, IPX (Novell), and
AppleTalk (Apple)
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Organizes data bits into frames
The data link layer defines hardware (physical or
MAC) addresses as well as the communication
process that occurs within a media type.
Error correction and retransmission
Switches and bridges function at the data link layer.
Examples of data link layer protocols include IEEE’s
802.2, 802.3, Ethernet II, HDLC, PPP, and Frame
Relay.

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Cables and bits
Type of signaling such as analog or digital
Electrical or optical characteristics of signal
Asynchronous, synchronous, simplex, full or half duplex
Data rate such as 10, 100, or gigabit
Topology such as star, bus, ring
The first or bottommost layer is responsible for the physical
mechanics of a network connection including wires (UTP, coax,
thicknet, thinnet, fiber) and connectors (RJ-45 and DB-9) and
transmission of bits
Single or multiple channels over a medium
Hubs and repeaters are examples if devices that function at the
physical layer.
OSI
TCP/IP
7-Application
6-Presentation
5-Session
4-Process/Application
Layer
4-Transport
3-Network
3-Host to host layer
2-Data link
2-Internet layer
1-Physical
1-Network Access layer
Your computer
Web server
User data
7-Application
http
A
User data
6-Presentation
unicode
5-Session
security
4-Transport
tcp
3-Network
ip
2-Data link
ethernet
1-Physical
Bit stream
PA
User data
SPA
User data
TSPA
User data
NTSPA
User data
DNTSPA
User data
100100010101010010100
7-Application
http
A
User data
6-Presentation
unicode
5-Session
security
4-Transport
tcp
3-Network
ip
2-Data link
ethernet
1-Physical
Bit stream
PA
User data
SPA
User data
TSPA
User data
NTSPA
User data
DNTSPA
User data
100100010101010010100
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