The document discusses how network design should consider application requirements and traffic flows. It identifies four main types of application communication and explains how to characterize applications. Key factors that affect network design are internal and external traffic patterns, hardware choices, and quality of service implementation. Specific challenges for real-time, file transfer, web, and domain services are outlined. The document also covers supporting voice and video, documenting application needs, and diagramming traffic flows.
Point-to-point (PTP) wireless connections have many use cases including linking buildings on university campus, creating connections between offshore oil rigs, and eliminating the need to pull fiber cable between buildings on opposite sides of a busy road. This guide will help you select the right hardware platform (including both the AOS-based AP-175 and Aruba¹s new AirMesh products; Choose appropriate antennas and accessories; Identify and overcome some of the most common outdoor installation challenges; Set up and configure the Aruba solution.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
In this presentation, we will cover basic requirements and supported topologies for Multizone AP, how to bring up APs in multi version and how the AP's image upgrade differs in 8.x
Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-Multi-zone-AP-and-Centralized/td-p/308499
Aruba Central has gone through some major changes over the last few months, and we would like to take you behind the scenes to show some of the new features and functions. Check out the webinar recording where this presentation was used: https://community.arubanetworks.com/t5/Aruba-Instant-Cloud-Wi-Fi/Airheads-Technical-Webinar-Recording-Slides-Aruba-Central/m-p/277608.
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
Is your wireless network more secure than your wired network? In this session, we'll discuss how to use industry standard techniques to provide secure wired access. This includes using policies and RADIUS/RADIUS CoA to ensure that ports used for Wi-Fi APs, IoT devices, printers and IP phones are protected against unwanted use by employees, guests, and contractors. The days of dedicated ports assigned to VLANs are over! By using a 'universal ports tied to policies’ model, network access is based on dynamic enforcement rules. These techniques work across popular wired infrastructure from HPE, Cisco, and others.
In this presentation, we will cover the Central platform which provides a standard Web-based interface that allows you to configure and monitor multiple Aruba Instant networks / Switches from anywhere with a connection to the Internet. Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Cloud-Managed-Networks/Technical-Webinar-Aruba-Central-with-Instant-AP/td-p/429366
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
Point-to-point (PTP) wireless connections have many use cases including linking buildings on university campus, creating connections between offshore oil rigs, and eliminating the need to pull fiber cable between buildings on opposite sides of a busy road. This guide will help you select the right hardware platform (including both the AOS-based AP-175 and Aruba¹s new AirMesh products; Choose appropriate antennas and accessories; Identify and overcome some of the most common outdoor installation challenges; Set up and configure the Aruba solution.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
In this presentation, we will cover basic requirements and supported topologies for Multizone AP, how to bring up APs in multi version and how the AP's image upgrade differs in 8.x
Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-Multi-zone-AP-and-Centralized/td-p/308499
Aruba Central has gone through some major changes over the last few months, and we would like to take you behind the scenes to show some of the new features and functions. Check out the webinar recording where this presentation was used: https://community.arubanetworks.com/t5/Aruba-Instant-Cloud-Wi-Fi/Airheads-Technical-Webinar-Recording-Slides-Aruba-Central/m-p/277608.
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
Is your wireless network more secure than your wired network? In this session, we'll discuss how to use industry standard techniques to provide secure wired access. This includes using policies and RADIUS/RADIUS CoA to ensure that ports used for Wi-Fi APs, IoT devices, printers and IP phones are protected against unwanted use by employees, guests, and contractors. The days of dedicated ports assigned to VLANs are over! By using a 'universal ports tied to policies’ model, network access is based on dynamic enforcement rules. These techniques work across popular wired infrastructure from HPE, Cisco, and others.
In this presentation, we will cover the Central platform which provides a standard Web-based interface that allows you to configure and monitor multiple Aruba Instant networks / Switches from anywhere with a connection to the Internet. Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Cloud-Managed-Networks/Technical-Webinar-Aruba-Central-with-Instant-AP/td-p/429366
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
In centralized Aruba WLAN deployments, the mobility controller is the heart of the network. The controller operates as a stand-alone master, or in a master-local cluster. Aruba provides several redundancy models for deploying mobility controllers. Each of these options, including the choice to forgo redundancy, must be understood so that the correct choice can be made for each deployment model.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This presentation covers:
1. Evolution of UMTS core network
2. Different 3GPP releases up gradation to UMTS architecture
3. UMTS Core network elements
4. Protocols used in UMTS core networks
5. MSC server and MGW
6. IMS architecture
Technical Overview of Cisco Catalyst 9200 Series SwitchesRobb Boyd
TechWiseTV's Cisco Container Platform live workshop took place on July 18th.
For the first time in the industry, a single family of fixed, stackable, and modular switches are running on the same IOS-XE operating system along with a common ASIC.
Cisco’s Catalyst 9200 rounds out the lower end of its incredible Catalyst 9000 family of switches. The 9200 is designed for small, medium, and branch deployments, providing greater modularity, redundancy, and stackability than the Catalyst 2960 it replaces.
Register now.
Moving towards a new Wi-Fi technology does not have to be too much of an undertaking. Of course, that's assuming great deal of planning and attention to detail in terms of defining the clear steps on how to get there. In this session we will discuss 802.11ac placement, Wi-Fi coverage and capacity planning for 802.11ac devices and how to take advantage of 802.11ac transmit beamforming
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The QinQ technology is called VLAN dot1q tunnel, 802.1Q tunnel, VLAN Stacking technology. The standard comes from IEEE 802.1ad and it is the expansion of the 802.1Q protocol. QinQ adds one layer of 802.1Q tag (VLAN tag) based on the original 802.1Q packet head. With the double layers of tags, the VLAN quantity is increased to 802.1Q.
How to configure the QinQ? Here we will list two occasions and they can be applied to Huawei switches higher level than Quidway S2700 and with EI version, Huawei S3700 switches and Quidway S5700, etc.
The application note focuses on configuration and operation of guest access solutions on ArubaOS. The native guest access solution including configuration of the guest access and guest provisioning profiles, guest administration, and captive portal configuration.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This guide covers indoor 802.11n WLANs and is considered part of the foundation guides within the VRD core technologies series. This guide describes 802.11n, differences in 802.11n vs. 802.11a/b/g functionality, and Aruba-specific technologies and access points (APs) that make 802.11n-based WLANs a viable replacement for wired Ethernet in the majority of deployments.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The existing channel and power assignment functions in ARM support channel scanning, channel assignment and power adjustments, locally. Decisions are made locally at the AP without looking at the entire network. Thanks to the dynamic machine learning techniques, AirMatch centralises this function in the Mobility Master while dynamically learning the network and adapting the RF planning for the entire network. Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-What-does-AirMatch-do/td-p/314413
In centralized Aruba WLAN deployments, the mobility controller is the heart of the network. The controller operates as a stand-alone master, or in a master-local cluster. Aruba provides several redundancy models for deploying mobility controllers. Each of these options, including the choice to forgo redundancy, must be understood so that the correct choice can be made for each deployment model.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This presentation covers:
1. Evolution of UMTS core network
2. Different 3GPP releases up gradation to UMTS architecture
3. UMTS Core network elements
4. Protocols used in UMTS core networks
5. MSC server and MGW
6. IMS architecture
Technical Overview of Cisco Catalyst 9200 Series SwitchesRobb Boyd
TechWiseTV's Cisco Container Platform live workshop took place on July 18th.
For the first time in the industry, a single family of fixed, stackable, and modular switches are running on the same IOS-XE operating system along with a common ASIC.
Cisco’s Catalyst 9200 rounds out the lower end of its incredible Catalyst 9000 family of switches. The 9200 is designed for small, medium, and branch deployments, providing greater modularity, redundancy, and stackability than the Catalyst 2960 it replaces.
Register now.
Moving towards a new Wi-Fi technology does not have to be too much of an undertaking. Of course, that's assuming great deal of planning and attention to detail in terms of defining the clear steps on how to get there. In this session we will discuss 802.11ac placement, Wi-Fi coverage and capacity planning for 802.11ac devices and how to take advantage of 802.11ac transmit beamforming
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The QinQ technology is called VLAN dot1q tunnel, 802.1Q tunnel, VLAN Stacking technology. The standard comes from IEEE 802.1ad and it is the expansion of the 802.1Q protocol. QinQ adds one layer of 802.1Q tag (VLAN tag) based on the original 802.1Q packet head. With the double layers of tags, the VLAN quantity is increased to 802.1Q.
How to configure the QinQ? Here we will list two occasions and they can be applied to Huawei switches higher level than Quidway S2700 and with EI version, Huawei S3700 switches and Quidway S5700, etc.
The application note focuses on configuration and operation of guest access solutions on ArubaOS. The native guest access solution including configuration of the guest access and guest provisioning profiles, guest administration, and captive portal configuration.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This guide covers indoor 802.11n WLANs and is considered part of the foundation guides within the VRD core technologies series. This guide describes 802.11n, differences in 802.11n vs. 802.11a/b/g functionality, and Aruba-specific technologies and access points (APs) that make 802.11n-based WLANs a viable replacement for wired Ethernet in the majority of deployments.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The existing channel and power assignment functions in ARM support channel scanning, channel assignment and power adjustments, locally. Decisions are made locally at the AP without looking at the entire network. Thanks to the dynamic machine learning techniques, AirMatch centralises this function in the Mobility Master while dynamically learning the network and adapting the RF planning for the entire network. Check out the webinar recording where this presentation was used: http://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-What-does-AirMatch-do/td-p/314413
CCNA 1
Communication is almost as important to us as our reliance on air, water, food, and shelter. In today’s world, through the use of networks, we are connected like never before.
Every computer on a network is called a host or end device.
Servers are computers that provide information to end devices:
email servers
web servers
file server
Clients are computers that send requests to the servers to retrieve information:
the web page from a web server
email from an email server.
An end device is where a message originates from or where it is received. Data originates with an end device, flows through the network, and arrives at an end device.
An intermediary device interconnects end devices. Examples include switches, wireless access points, routers, and firewalls.
Management of data as it flows through a network is also the role of an intermediary device, including:
Regenerate and retransmit data signals.
Maintain information about what pathways exist in the network.
Notify other devices of errors and communication failures.