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Eai gente!?, estou disponibilizando este curso de redes da Universidade de washington completo!!
É em inglês com legendas em Inglês.
Os tópicos são:
1--Introduction, Protocols, and Layering:
1-1 Goals and Motivation (12:53)
1-2 Uses of Networks (13:16)
1-3 Network Components (13:30)
1-4 Sockets (14:07)
1-5 Traceroute (07:36)
1-6 Protocol Layers (22:25)
1-7 Reference Models (14:09)
1-8 Internet History (12:39)
1-9 Lecture Outline (04:07)
Networks in the News (2:03)
2--Physical and Link Layers
2-1 Physical Layer Overview (09:27)
2-2 Media (8:56)
2-3 Signals (17:58)
2-4 Modulation (11:00)
2-5 Limits (12:43)
2-6 Link Layer Overview (04:14)
2-7 Framing (11:26)
2-8 Error Overview (17:45)
2-9 Error Detection (23:17)
2-10 Error Correction (19:28)
3--Retransmissions, Multiple Access and Switching
3-1 Overview of the Link Layer (3:19)
3-2 Retransmissions (18:12)
3-3 Multiplexing (10:05
3-4 Random Multiple Access (25:05)
3-5 Wireless Multiple Access (25:20)
3-6 Contention-Free Multiple Access (05:54)
3-7 LAN Switches (19:50)
3-8 Switch Spanning Tree (22:13)
Optional Project: Introduction (11:56)
Optional Project: Setup (14:42)
4--Packet Forwarding, Internetworking, and NAT
4-1 Network Layer Overview (10:33)
4-2 Network Services (22:26)
4-3 Internetworking (15:25)
4-4 IP Forwarding (27:44)
4-5 IP Helpers (ARP and DHCP)
4-6 Packet Fragmentation (16:45)
4-7 IP Errors (ICMP) (10:33)
4-8 IP version 6 (20:10)
4-9 Network Address Translation (NAT) (23:45)
5--Routing
5-1 Routing Overview (13:16)
5-2 Shortest Path Routing (13:41)
5-3 Dijkstra's Algorithm (13:11)
5-4 Distance Vector Routing (21:19)
5-5 Flooding (07:01)
5-6 Link-State Routing (16:20)
5-7 Equal-Cost Multi-Path Routing (11:42)
5-8 Hosts and Routers (04:11)
5-9 Hierarchical Routing (09:46)
5-10 Prefix Aggregation and Subnets (8:21)
5-11 Routing with Policy (BGP) (26:40)
[optional] Wireshark 101
6--Transport Layer, Reliable Transport
6-1 Transport Layer Overview (12:50)
6-2 User Datagram Protocol (UDP) (07:56)
6-3 Connection Establishment (12:56)
6-4 Connection Release (08:59)
6-5 Sliding Window (23:02)
6-6 Flow Control (09:35)
6-7 Retransmission Timeouts (10:08)
6-8 Transmission Control Protocol (TCP) (10:13)
[optional] Google's optimizations to network protocols
7--Congestion Control
7-1 Congestion Overview (15:36)
7-2 Fairness of Allocations (16:25)
7-3 Additive Increase Multiplicative Decrease (17:18)
7-4 History of TCP Congestion Control (12:18)
7-5 ACK C
7-6 TCP Slow-Start (14:50)
7-7 TCP Fast Retransmit / Fast Recovery (16:50)
7-8 Explicit Congestion Notification (09:05)
8--Web and Content Distribution
8-1 Application Layer Overview (19:10)
8-2 DNS Part 1 (21:21)
8-3 DNS Part 2 (21:33)
8-4 HTTP Introduction (21:29)
8-5 HTTP Performance (23:04)
8-6 HTTP Caching and Proxies (13:53)
8-7 Content Delivery Networks (16:36)
8-8 Future of HTTP (20:23)
8-9 Peer-to-Peer Networks (BitTorrent) (21:27)
9--Quality of Service
9-1 QOS Overview (21:11)
9-2 Real-time Transport (20:46)
9-3 Streaming Media (19:05)
9-4 Fair Queuing (24:28)
9-5 Traffic Shaping (19:05)
9-6 Differentiated Services (16:47)
9-7 Rate and Delay Guarantees (20:37)
10--Network Security
10-1 Network Security Overview (17:34)
10-2 Message Confidentiality (15:58)
10-3 Message Authentication (22:43)
10-4 Wireless Security (12:44)
10-5 Web Security (24:10)
10-6 DNS Security (17:02)
10-7 Firewalls (16:58)
10-8 Virtual Private Networks (VPNs) (17:21)
10-9 Distributed Denial-of-Service (18:28)
O curso está dividido em duas partes compactadas:
Parte 1 : Apenas usuários registrados e ativados podem ver os links., Clique aqui para se cadastrar...
Parte 2 : Apenas usuários registrados e ativados podem ver os links., Clique aqui para se cadastrar...
É em inglês com legendas em Inglês.
Os tópicos são:
1--Introduction, Protocols, and Layering:
1-1 Goals and Motivation (12:53)
1-2 Uses of Networks (13:16)
1-3 Network Components (13:30)
1-4 Sockets (14:07)
1-5 Traceroute (07:36)
1-6 Protocol Layers (22:25)
1-7 Reference Models (14:09)
1-8 Internet History (12:39)
1-9 Lecture Outline (04:07)
Networks in the News (2:03)
2--Physical and Link Layers
2-1 Physical Layer Overview (09:27)
2-2 Media (8:56)
2-3 Signals (17:58)
2-4 Modulation (11:00)
2-5 Limits (12:43)
2-6 Link Layer Overview (04:14)
2-7 Framing (11:26)
2-8 Error Overview (17:45)
2-9 Error Detection (23:17)
2-10 Error Correction (19:28)
3--Retransmissions, Multiple Access and Switching
3-1 Overview of the Link Layer (3:19)
3-2 Retransmissions (18:12)
3-3 Multiplexing (10:05
3-4 Random Multiple Access (25:05)
3-5 Wireless Multiple Access (25:20)
3-6 Contention-Free Multiple Access (05:54)
3-7 LAN Switches (19:50)
3-8 Switch Spanning Tree (22:13)
Optional Project: Introduction (11:56)
Optional Project: Setup (14:42)
4--Packet Forwarding, Internetworking, and NAT
4-1 Network Layer Overview (10:33)
4-2 Network Services (22:26)
4-3 Internetworking (15:25)
4-4 IP Forwarding (27:44)
4-5 IP Helpers (ARP and DHCP)
4-6 Packet Fragmentation (16:45)
4-7 IP Errors (ICMP) (10:33)
4-8 IP version 6 (20:10)
4-9 Network Address Translation (NAT) (23:45)
5--Routing
5-1 Routing Overview (13:16)
5-2 Shortest Path Routing (13:41)
5-3 Dijkstra's Algorithm (13:11)
5-4 Distance Vector Routing (21:19)
5-5 Flooding (07:01)
5-6 Link-State Routing (16:20)
5-7 Equal-Cost Multi-Path Routing (11:42)
5-8 Hosts and Routers (04:11)
5-9 Hierarchical Routing (09:46)
5-10 Prefix Aggregation and Subnets (8:21)
5-11 Routing with Policy (BGP) (26:40)
[optional] Wireshark 101
6--Transport Layer, Reliable Transport
6-1 Transport Layer Overview (12:50)
6-2 User Datagram Protocol (UDP) (07:56)
6-3 Connection Establishment (12:56)
6-4 Connection Release (08:59)
6-5 Sliding Window (23:02)
6-6 Flow Control (09:35)
6-7 Retransmission Timeouts (10:08)
6-8 Transmission Control Protocol (TCP) (10:13)
[optional] Google's optimizations to network protocols
7--Congestion Control
7-1 Congestion Overview (15:36)
7-2 Fairness of Allocations (16:25)
7-3 Additive Increase Multiplicative Decrease (17:18)
7-4 History of TCP Congestion Control (12:18)
7-5 ACK C
7-6 TCP Slow-Start (14:50)
7-7 TCP Fast Retransmit / Fast Recovery (16:50)
7-8 Explicit Congestion Notification (09:05)
8--Web and Content Distribution
8-1 Application Layer Overview (19:10)
8-2 DNS Part 1 (21:21)
8-3 DNS Part 2 (21:33)
8-4 HTTP Introduction (21:29)
8-5 HTTP Performance (23:04)
8-6 HTTP Caching and Proxies (13:53)
8-7 Content Delivery Networks (16:36)
8-8 Future of HTTP (20:23)
8-9 Peer-to-Peer Networks (BitTorrent) (21:27)
9--Quality of Service
9-1 QOS Overview (21:11)
9-2 Real-time Transport (20:46)
9-3 Streaming Media (19:05)
9-4 Fair Queuing (24:28)
9-5 Traffic Shaping (19:05)
9-6 Differentiated Services (16:47)
9-7 Rate and Delay Guarantees (20:37)
10--Network Security
10-1 Network Security Overview (17:34)
10-2 Message Confidentiality (15:58)
10-3 Message Authentication (22:43)
10-4 Wireless Security (12:44)
10-5 Web Security (24:10)
10-6 DNS Security (17:02)
10-7 Firewalls (16:58)
10-8 Virtual Private Networks (VPNs) (17:21)
10-9 Distributed Denial-of-Service (18:28)
O curso está dividido em duas partes compactadas:
Parte 1 : Apenas usuários registrados e ativados podem ver os links., Clique aqui para se cadastrar...
Parte 2 : Apenas usuários registrados e ativados podem ver os links., Clique aqui para se cadastrar...