Internet Infrastructure

Oke..
Mggu nie nye citer ialah sal Internet Infrastructure..
First skli nk ckp sal hierarchy internet nie…
1.      From sigle computer to LAN
2.      From LAN to ISP
3.      From ISP to WWW.
Mcm biase la.. kalo nak connect internet nie kne la d bende2 asas nie cam,,
·         Computer
·         Web browser
·         And aslo internet access

Lets take a look at.. Internet Protocol (IP)
What is that?
·         internet standard protocol that provide a common layer over dissimilar network.
·         Every computer assign unique IP address
·         IP address consist of 32 bits (shown as 4 octets of  numbers from 0-225 represented in decimal form instead of binary.
o   For example - 168.212.226.204
o   10101000.11010100.11100010.11001100
·         IP add  consists of 2 part.
o   Identifying the network
o   Identifying the node/host
·         Class of addresses determines which part belongs to the network add & which part belongs to node.
·         All nodes on a given network share the same network prefix but must have a unique host number.
There are 5 different class of network, class A, class B, class C, class D, and class E.
Class A
      Binary add start with 0 therefore decimal number can be anywhere from 1 to 126
      The first 8 bits (the first octet) identify the network and the remaining 24 bits indicate the host within the network.


Class B
      Binary add start with 10 = decimal number can be anywhere from 128 to 191
      The number 127 is reserved for loopback and is used for internal testing on the local machine)
      The first 16 bits (first 2 octet) = identify the network & the remaining 16 bit indicate the host
      168.212.226.204
Class C
      Binary add start with 110 = decimal number can be anywhere from 192 to 223
      The first 24 bits (first 3 octets) = identify the network
      200.168.212.226
Class D
      Binary add start with 1110 = decimal number can be anywhere from 224 to 239
      Used to support multicasting
Class E
      Binary add start with 1111 = decimal number can be anywhere from 240 to 225
      Used for experimentation, never been documented or utilized in a standard way

The other things is Domain Name System (DNS)
Internet service that translates domain names like www.mangareader.com into numerical IP address like 204.62.131.129
Why we use DNS?
domain names are alphabetic (easier to remember)

More information
  1. IAP  (Internet Access Provider)
    • (IAP) A company or other origanisation which provides access to the Internet to businesses and/or consumers. An IAP purchases an Internet link from another company that has a direct link to the Internet and resells portions of that bandwidth to the general public.
  2. ISP (internet Service Provider)
    • An Internet service provider (ISP) is an organization that provides access to the Internet.
    • Internet service providers can be either community-owned and non-profit, or privately owned and for-profit.
    • Access ISPs directly connect clients to the Internet using copper wires, wireless or fiber-optic connections. Hosting ISPs lease server space for smaller businesses and other people (colocation). Transit ISPs provide large amounts of bandwidth for connecting hosting ISPs to access ISPs.
  3. HTTP (Hypertext Transfer Protocol)
    • The Hypertext Transfer Protocol (HTTP) is an application protocol for distributed, collaborative, hypermedia information systems. HTTP is the foundation of data communication for the World Wide Web.
    • Hypertext is a multi-linear set of objects, building a network by using logical links (the so called hyperlinks) between the nodes (e.g. text or words). HTTP is the protocol to exchange or transfer hypertext.
    • The standards development of HTTP was coordinated by the Internet Engineering Task Force (IETF) and the World Wide Web Consortium (W3C), culminating in the publication of a series of Requests for Comments (RFCs), most notably RFC 2616 (June 1999), which defines HTTP/1.1, the version of HTTP in common use.

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wireless

so... lets look something about wireless or unbounded media..

unbounded media nie sbnarnye tak menggunakan apa-apa penyambung fizikal antara kedua-dua peranti yang berkomunikasi.
digunakan apabila halangan fizikal atau jarak blok digunakan dengan media kabel biasa..

ad 3 jenis iaitu :
  1. radio waves
  2. micro waves
  3. infrared waves
radio waves.
Radio adalah penghantaran isyarat melalui ruang bebas oleh gelombang elektromagnet dengan frekuensi yang jauh di bawah cahaya yang boleh dilihat, dalam julat frekuensi radio

micro waves.
merujuk kepada teknologi penghantaran maklumat atautenaga dengan menggunakan gelombang radio yang panjang gelombang adalah mudahdiukur dalam jumlah yang kecil sentimeter

-parabolic antenna
Untuk mengarahkan gelombang mikro dalam narrow beams untuk hubungan komunikasi titik ke titik atau radiolocation (radar), antena parabola biasanya digunakan. Ini adalah sebuah antena yang menggunakan reflektor parabola untuk halakan gelombang mikro.Untuk mencapai beamwidths sempit, reflector mestilah lebih besar daripada panjang gelombang gelombang radio.



infrared waves
radiasi elektromagnetik dengan wavelength yang lebih panjang daripada cahaya yang boleh dilihat, bermula dari pinggir nominal merah spektrum yang boleh dilihat


more..

1. wi-fi
merupakan teknologi yang membolehkan peranti elektronik untuk bertukar-tukar data tanpa wayar (menggunakan gelombang radio) melalui rangkaian komputer, termasuk sambungan interne tberkelajuan tinggi. Wi-Fi Alliance mentakrifkan Wi-Fi sebagai mana-mana "wireless local area network (WLAN) produk yang berasaskan kepada 'Institute of Electrical and Electronics Engineers' (IEEE) 802,11 standard". Bagaimanapun, sejak WLAN paling moden adalah berdasarkan piawaian ini, istilah "Wi-Fi" digunakan dalam bahasa Inggeris umum sebagai sinonim untuk "WLAN".


2. Institute of Electrical and Electronics Engineers (IEEE)
Institut Jurutera Elektrik dan Elektronik (IEEE, baca I-Triple-E) adalah sebuah persatuan profesional yang tidak mencari keuntungan yang beribu pejabat di New York City yang berdedikasi untuk memajukan inovasi teknologi dan kecemerlangan.


3.3g ang 4g
kelajuan 4g melebihi 3g..
perkhidmatan data untuk 3g adalah 14Mbps downlink dan 5Mbps uplink. manakala 4g pula menawarkan perkhidmatan data sehingga 100Mbps.

4.cellular phone
adalah peranti yang boleh membuat dan menerima panggilan telefon ke atas link radio sambil bergerak di sekitar kawasan geografi yang luas. Ia berbuat demikian dengan menyambung kepada rangkaian selular yang disediakan oleh pengendali telefon mudah alih, membolehkan akses kepada rangkaian telefon awam.

5.uplink and downlink
uplink adalah link komunikasi yang digunakan untuk penghantaran isyarat dari Earth Terminal kepada Satellite.
manakala downlink pula adalah pautan dari satellite ke stesen bumi.

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cabling

rsenye dah lme x update blog nie...
sbuk sket skang nie...
ok..skang nak citer sal cabling atau penkabelan dalam bhase mlayu nye...


ape tu cabling?
-Kabel merupakan salah satu medium di mana maklumat bergerak dari suatu peranti rangkaian ke peranti lain.


ad 5 jnis cabling..

Fiber Optic Cable


Unshielded Twisted Pair (UTP) Cable




Kabel yang mempunyai empat pasang wayar di dalam jaket. Setiap pasangan dipintaldengan bilangan yang berbeza dengan ranjau setiap inci untuk membantumenyingkirkan gangguan dari pasangan yang bersebelahan dan alat-alat elektrik yanglain.
Kelemahan UTP adalah ia mungkin terdedah kepada radio dan gangguan frekuensi elektrik.

Shielded Twisted Pair (STP) Cable
STP, merupakan jenis kabel yang terdiri daripada dua wayar individu yang dibalut dalam kerajang perisai untuk membantu memberi komunikasi data yang lebih dipercayai.

Coaxial Cable

Kabel coaxial mempunyai pengalir tembaga tunggal di tengah-tengahnya.
Satu lapisan plastik mengandungi penebatan antara konduktor pusat dan perisai logambraided
Perisai logam membantu untuk menghalang mana-mana gangguan luar daripada lampupendarfluormotor, dan komputer lain.

Fiber Optic Cable
terdiri daripada teras kaca pusat yang dikelilingi oleh beberapa lapisan bahanpelindung.
Ia menghantar cahaya dan bukannya isyarat elektronik.


Summary of Ethernet cabling

Cable & topology


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NETWORK TOPOLOGY

before i tell more about the Network topology,, let me explain something about:

NIC

  • A network interface controller (also known as a network interface card, network adapter, LAN adapter and by similar terms) is a computer hardware component that connects a computer to a computer network.
  • Whereas network interface controllers were commonly implemented on expansion cards that plug into a computer bus, the low cost and ubiquity of the Ethernet standard means that most newer computers have a network interface built into the motherboard.


now 
lets talk about the network topology..

Network topology is the layout pattern of interconnections of the various elements (links, nodes, etc.) of a computer or biological network.Network topologies may be physical or logical.

  1. Physical topology refers to the physical design of a network including the devices, location and cable installation.
  2. Logical topology refers to how data is actually transferred in a network as opposed to its physical design. In general physical topology relates to a core network whereas logical topology relates to basic network.

A local area network (LAN) is one example of a network that exhibits both a physical topology and a logical topology.

The study of network topology recognizes eight basic topologies
  • point-to-point
  • bus
  • star
  • ring or circular
  • mesh
  • tree
  • hybrid
  • daisy chain
1.point-to-point
  • The simplest topology is a permanent link between two endpoints. Switched point-to-point topologies are the basic model of conventional telephony.
  • The value of a permanent point-to-point network is unimpeded communications between the two endpoints.
  • The value of an on-demand point-to-point connection is proportional to the number of potential pairs of subscribers, and has been expressed as Metcalfe's Law.
  • the point to point topology is a type of physical topology
2.bus
  • A bus network is an arrangement in a local area network (LAN) in which each node(workstation or other device) is connected to a main cable or link called the bus. The illustration shows a bus network with five nodes.
  • Each node is shown as a sphere, the bus appears as a heavy horizontal line, and connections to the bus appear as vertical lines.
  • A bus network is simple and reliable. If one node fails to operate, all the rest can still communicate with each other. For a major disruption to take place, the bus itself must be broken somewhere. Bus networks are easy to expand.Additional nodes can be added anywhere along the bus.
  • There are several limitations to the bus network topology. The length of the bus is limited by cable loss. A bus network may not work well if the nodes are located at scattered points that do not lie near a common line.In situations like this, a ring network, mesh network, or star network may prove more flexible and more cost effective.
(credit to techtarget.com)

3.star
  • Alternatively referred to as a star network, a star topology is one of the most common network setups where each of the devices and computers on a network connect to a central hub.
  • A major disadvantage of this network topology is that if the central hub fails, all computers connected to that hub would be disconnected.
  • Below is a visual example of a simple computer setup on a network using the star topology. 



4.ring
  • A network topology that is set up in a circular fashion in which data travels around the ring in one direction and each device on the right acts as a repeater to keep the signal strong as it travels.
  • Each device incorporates a receiver for the incoming signal and a transmitter to send the data on to the next device in the ring. The network is dependent on the ability of the signal to travel around the ring.



5.mesh
  • Mesh network topology is one of the key network architectures in which devices are connected with many redundant interconnections between network nodes such as routers and switches.
  • In a mesh topology if any cable or node fails, there are many other ways for two nodes to communicate.
  • While ease of troubleshooting and increased reliability are definite pluses, mesh networks are expensive to install because they use a lot of cabling.
  • Often, a mesh topology will be used in conjunction with other topologies (such as Star, Ring and Bus) to form a hybrid topology.
  • Some WAN architecture, such as the Internet, employ mesh routing.Therefore the Internet allows sites to communicate even during a war.



6.tree
  • The type of network topology in which a central 'root' node (the top level of the hierarchy) is connected to one or more other nodes that are one level lower in the hierarchy (i.e., the second level) with a point-to-point link between each of the second level nodes and the top level central 'root' node, while each of the second level nodes that are connected to the top level central 'root' node will also have one or more other nodes that are one level lower in the hierarchy (i.e., the third level) connected to it, also with a point-to-point link, the top level central 'root' node being the only node that has no other node above it in the hierarchy (The hierarchy of the tree is symmetrical.) Each node in the network having a specific fixed number, of nodes connected to it at the next lower level in the hierarchy, the number, being referred to as the 'branching factor' of the hierarchical tree.
  • This tree has individual peripheral nodes.


7.hybrid
  • Hybrid networks use a combination of any two or more topologies in such a way that the resulting network does not exhibit one of the standard topologies (e.g., bus, star, ring, etc.). For example, a tree network connected to a tree network is still a tree network topology.
  • A hybrid topology is always produced when two different basic network topologies are connected.
  • Two common examples for Hybrid network are: star ring network and star bus network.


8.daisy chain
  • Except for star-based networks, the easiest way to add more computers into a network is by daisy-chaining, or connecting each computer in series to the next.
  • If a message is intended for a computer partway down the line, each system bounces it along in sequence until it reaches the destination.
  • A daisy-chained network can take two basic forms : linear and ring.


lets look at this video


thats all..thank you.....
credit to wikipedia.com
     

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