The Chattanooga Metropolitan Airport Authority wanted to provide ubiquitous wireless Internet access throughout their facility. They partnered with a local wireless Internet service provider, AirNet Group, to deploy a Meraki wireless network using just five nodes. AirNet Group and airport officials installed and configured the entire network in just a few hours. The Meraki network provided reliable wireless coverage across all areas of the airport complex in a cost effective manner. Over 20,000 users have utilized the network, supporting the airport's customer service goals.
Intro to the Internet of Things using NetduinoDean Willson
It is estimated that by 2020 there will be tens of billions of devices connected to the internet. As a .Net developer, devices like the Netduino provide a low barrier to entry for IoT utilizing your existing skills and tools. This is an introduction to IoT using Visual Studio and Netduino.
Intro to the Internet of Things using NetduinoDean Willson
It is estimated that by 2020 there will be tens of billions of devices connected to the internet. As a .Net developer, devices like the Netduino provide a low barrier to entry for IoT utilizing your existing skills and tools. This is an introduction to IoT using Visual Studio and Netduino.
The Meraki Cloud Controller (MCC) powers a premium-featured enterprise wireless LAN without the cost or complexity of traditional solutions. Designed to provide wireless access to the corporate LAN for offices of any size, industrial firms, retailers, educational institutions and multi-site locations.
Running head NETWORK INFRASTRUCTURE AND SECURITY 1NETWOR.docxtodd581
Running head: NETWORK INFRASTRUCTURE AND SECURITY
1
NETWORK INFRASTRUCTURE AND SECURITY
2
Project Deliverable 5: Network Infrastructure and Security
CIS 499 – Information Systems Capstone
November 25, 2018
Project Scope
The project will comprise of a network design to meet Acme Corporation network infrastructure requirements. The network should accommodate occasional guest users of up to 10 users. The network design will incorporate an FTP server that will use for sharing files. The project should involve separate subnet for guest and LAN networks; the guest network should be restricted to access only FTP service on the FTP server while all other access to the LAN network will be blocked. The project will also involve IP Network Design as well as identification and configuration details of the hardware utilized (Switches and Routers). Included in the network design is the implementation of a Wireless LAN (WLAN) that minimizes the management effort to configure and manage while allowing effective data transmission between the Wireless Application Protocols (WAPs).
Network design
The network will use a star topology where it provides centralized handling of the network and its’ associated security. Each of the floors of the building will have a central server which host switches that link the different rooms via ethernet cables. Each of the rooms will have a switch that is linked to the central server's router. The servers will be linked via fiber optic cables. The ethernet cables will be utilized for connecting individual devices to their associated switches. The network design will involve the utilization of both wired and wireless media. The wireless media will allow for a network connection for portable devices like tablets, cell phones, and laptops.
The switch links allow the traffic getting into the Acme’s LAN from the MAN not to be congested. As more tablets are utilized in the company, the WLAN bandwidth increases significantly to each room. This requires that the WAPs supporting the 802.11n protocol as well as faster 802.11ac standard require additional power. As a result, switches with PoE+ give the required power. These Switches utilize the existing Category-6 cable (Ethernet cables) that allow for remote administration and configuration (Karris, 2009).
Virtual LANs (VLAN) will be used to enables the network administrator to group users into shared broadcast domains irrespective of their physical position in the internetwork. For instance, computer devices utilized by employees on two different floors may be placed on the same VLAN. The staff has their VLAN while the Guest VLAN is used by guests when using wireless access points.
The company's network perimeter that detaches it from the Internet comprises of two border core routers. The border routers should then link to the Virtual Private Network (VPN) Gateway. The Routers link to the servers, wireless access points and switches as well as the LAN (internal network)..
Running head NETWORK INFRASTRUCTURE AND SECURITY 1NETWOR.docxglendar3
Running head: NETWORK INFRASTRUCTURE AND SECURITY
1
NETWORK INFRASTRUCTURE AND SECURITY
2
Project Deliverable 5: Network Infrastructure and Security
CIS 499 – Information Systems Capstone
November 25, 2018
Project Scope
The project will comprise of a network design to meet Acme Corporation network infrastructure requirements. The network should accommodate occasional guest users of up to 10 users. The network design will incorporate an FTP server that will use for sharing files. The project should involve separate subnet for guest and LAN networks; the guest network should be restricted to access only FTP service on the FTP server while all other access to the LAN network will be blocked. The project will also involve IP Network Design as well as identification and configuration details of the hardware utilized (Switches and Routers). Included in the network design is the implementation of a Wireless LAN (WLAN) that minimizes the management effort to configure and manage while allowing effective data transmission between the Wireless Application Protocols (WAPs).
Network design
The network will use a star topology where it provides centralized handling of the network and its’ associated security. Each of the floors of the building will have a central server which host switches that link the different rooms via ethernet cables. Each of the rooms will have a switch that is linked to the central server's router. The servers will be linked via fiber optic cables. The ethernet cables will be utilized for connecting individual devices to their associated switches. The network design will involve the utilization of both wired and wireless media. The wireless media will allow for a network connection for portable devices like tablets, cell phones, and laptops.
The switch links allow the traffic getting into the Acme’s LAN from the MAN not to be congested. As more tablets are utilized in the company, the WLAN bandwidth increases significantly to each room. This requires that the WAPs supporting the 802.11n protocol as well as faster 802.11ac standard require additional power. As a result, switches with PoE+ give the required power. These Switches utilize the existing Category-6 cable (Ethernet cables) that allow for remote administration and configuration (Karris, 2009).
Virtual LANs (VLAN) will be used to enables the network administrator to group users into shared broadcast domains irrespective of their physical position in the internetwork. For instance, computer devices utilized by employees on two different floors may be placed on the same VLAN. The staff has their VLAN while the Guest VLAN is used by guests when using wireless access points.
The company's network perimeter that detaches it from the Internet comprises of two border core routers. The border routers should then link to the Virtual Private Network (VPN) Gateway. The Routers link to the servers, wireless access points and switches as well as the LAN (internal network)..
Wireless Network Makes Airport Operations More Connected and Compliant: The National Airport of Romania assures network availability while improving efficiency and introducing collaborative applications.
Securing 4G and LTE systems with Deep Learning and VirtualizationDr. Edwin Hernandez
In a world of mobile communications, the best solution for 4G and 5G systems is creating your own private network to secure all communications and sensitive information send and received by a mobile phone. EGLA CORP can assist you with that paradigm and our virtualization system based on MOBILECAD.
Our deep learning partnership with BLUEHEXAGON brings unique opportunities for 4G and 5G systems.
Type your short title here 1Running head Airborne Netwo.docxwillcoxjanay
Type your short title here 1
Running head: Airborne Networks 1
Airborne networks: uses, advantages and disadvantages
The term airborne network refers to the networking technology currently being developed and used by the United States Armed forces whereby an aircraft is used as the hub for a network. Thus the network is a mobile network that moves and shifts as the aircraft moves and shifts. This networking model has been developed majorly for the mode of warfare known as network centric warfare. As technology improves the armed forces need to make decisions based on current information. Airborne networks provide the forces in a battlefield with up to date information concerning any situation that may be important to the armed forces.
This networking architecture and model was developed by the Air Force with the intention to connect the terrestrial, land and water components of any battlefield. Though developed to help the armed forces during their battles this networking model has led to the rise of airborne internet services provision model. It uses the same idea as the airborne networking but its aim is not to create private networks rather it is used to provide wireless internet services to those who have subscribed. The aircrafts are used as the hubs for the wireless internet.
Airborne internet uses a method known as High Altitude Long Operation (HALO) networking. In this case HALO aircrafts fly around a target region to provide the wireless internet. Three aircrafts are needed in each of the regions. Each aircraft operates for 8 hours. Due to the fact that the aircrafts are specialized in the sense that they provide network services consistent update and maintenance of the aircrafts is needed. This is also true when it comes to airborne networks as used by the Air force.
Connectivity
Due to the sensitive nature of this network model connectivity should be a priority. The connectivity needs to be reliable and fast. It should also be secure due to the sensitive information that the Air force handles. The coverage of the network is Beyond Line of Sight (BLOS) and it also extends globally. This is due to the fact that these networks are transportable i.e. they can be moved from one point to another thus giving the network a global coverage attribute.
The connectivity of the airborne networks also gives a diversity of links for different situations. Because these networks are used by the air force the links differ according to the environment and function (which may be to get system information or media information). The links also differ according to the kind of signal that the recipient requires. The signal can be either radio or optical. Network connections are also flexible and global.
Services offered by airborne networks
The first service offered is real time data. This means that the data is delivered at the exact time it has been gene ...
The Meraki Cloud Controller (MCC) powers a premium-featured enterprise wireless LAN without the cost or complexity of traditional solutions. Designed to provide wireless access to the corporate LAN for offices of any size, industrial firms, retailers, educational institutions and multi-site locations.
Running head NETWORK INFRASTRUCTURE AND SECURITY 1NETWOR.docxtodd581
Running head: NETWORK INFRASTRUCTURE AND SECURITY
1
NETWORK INFRASTRUCTURE AND SECURITY
2
Project Deliverable 5: Network Infrastructure and Security
CIS 499 – Information Systems Capstone
November 25, 2018
Project Scope
The project will comprise of a network design to meet Acme Corporation network infrastructure requirements. The network should accommodate occasional guest users of up to 10 users. The network design will incorporate an FTP server that will use for sharing files. The project should involve separate subnet for guest and LAN networks; the guest network should be restricted to access only FTP service on the FTP server while all other access to the LAN network will be blocked. The project will also involve IP Network Design as well as identification and configuration details of the hardware utilized (Switches and Routers). Included in the network design is the implementation of a Wireless LAN (WLAN) that minimizes the management effort to configure and manage while allowing effective data transmission between the Wireless Application Protocols (WAPs).
Network design
The network will use a star topology where it provides centralized handling of the network and its’ associated security. Each of the floors of the building will have a central server which host switches that link the different rooms via ethernet cables. Each of the rooms will have a switch that is linked to the central server's router. The servers will be linked via fiber optic cables. The ethernet cables will be utilized for connecting individual devices to their associated switches. The network design will involve the utilization of both wired and wireless media. The wireless media will allow for a network connection for portable devices like tablets, cell phones, and laptops.
The switch links allow the traffic getting into the Acme’s LAN from the MAN not to be congested. As more tablets are utilized in the company, the WLAN bandwidth increases significantly to each room. This requires that the WAPs supporting the 802.11n protocol as well as faster 802.11ac standard require additional power. As a result, switches with PoE+ give the required power. These Switches utilize the existing Category-6 cable (Ethernet cables) that allow for remote administration and configuration (Karris, 2009).
Virtual LANs (VLAN) will be used to enables the network administrator to group users into shared broadcast domains irrespective of their physical position in the internetwork. For instance, computer devices utilized by employees on two different floors may be placed on the same VLAN. The staff has their VLAN while the Guest VLAN is used by guests when using wireless access points.
The company's network perimeter that detaches it from the Internet comprises of two border core routers. The border routers should then link to the Virtual Private Network (VPN) Gateway. The Routers link to the servers, wireless access points and switches as well as the LAN (internal network)..
Running head NETWORK INFRASTRUCTURE AND SECURITY 1NETWOR.docxglendar3
Running head: NETWORK INFRASTRUCTURE AND SECURITY
1
NETWORK INFRASTRUCTURE AND SECURITY
2
Project Deliverable 5: Network Infrastructure and Security
CIS 499 – Information Systems Capstone
November 25, 2018
Project Scope
The project will comprise of a network design to meet Acme Corporation network infrastructure requirements. The network should accommodate occasional guest users of up to 10 users. The network design will incorporate an FTP server that will use for sharing files. The project should involve separate subnet for guest and LAN networks; the guest network should be restricted to access only FTP service on the FTP server while all other access to the LAN network will be blocked. The project will also involve IP Network Design as well as identification and configuration details of the hardware utilized (Switches and Routers). Included in the network design is the implementation of a Wireless LAN (WLAN) that minimizes the management effort to configure and manage while allowing effective data transmission between the Wireless Application Protocols (WAPs).
Network design
The network will use a star topology where it provides centralized handling of the network and its’ associated security. Each of the floors of the building will have a central server which host switches that link the different rooms via ethernet cables. Each of the rooms will have a switch that is linked to the central server's router. The servers will be linked via fiber optic cables. The ethernet cables will be utilized for connecting individual devices to their associated switches. The network design will involve the utilization of both wired and wireless media. The wireless media will allow for a network connection for portable devices like tablets, cell phones, and laptops.
The switch links allow the traffic getting into the Acme’s LAN from the MAN not to be congested. As more tablets are utilized in the company, the WLAN bandwidth increases significantly to each room. This requires that the WAPs supporting the 802.11n protocol as well as faster 802.11ac standard require additional power. As a result, switches with PoE+ give the required power. These Switches utilize the existing Category-6 cable (Ethernet cables) that allow for remote administration and configuration (Karris, 2009).
Virtual LANs (VLAN) will be used to enables the network administrator to group users into shared broadcast domains irrespective of their physical position in the internetwork. For instance, computer devices utilized by employees on two different floors may be placed on the same VLAN. The staff has their VLAN while the Guest VLAN is used by guests when using wireless access points.
The company's network perimeter that detaches it from the Internet comprises of two border core routers. The border routers should then link to the Virtual Private Network (VPN) Gateway. The Routers link to the servers, wireless access points and switches as well as the LAN (internal network)..
Wireless Network Makes Airport Operations More Connected and Compliant: The National Airport of Romania assures network availability while improving efficiency and introducing collaborative applications.
Securing 4G and LTE systems with Deep Learning and VirtualizationDr. Edwin Hernandez
In a world of mobile communications, the best solution for 4G and 5G systems is creating your own private network to secure all communications and sensitive information send and received by a mobile phone. EGLA CORP can assist you with that paradigm and our virtualization system based on MOBILECAD.
Our deep learning partnership with BLUEHEXAGON brings unique opportunities for 4G and 5G systems.
Type your short title here 1Running head Airborne Netwo.docxwillcoxjanay
Type your short title here 1
Running head: Airborne Networks 1
Airborne networks: uses, advantages and disadvantages
The term airborne network refers to the networking technology currently being developed and used by the United States Armed forces whereby an aircraft is used as the hub for a network. Thus the network is a mobile network that moves and shifts as the aircraft moves and shifts. This networking model has been developed majorly for the mode of warfare known as network centric warfare. As technology improves the armed forces need to make decisions based on current information. Airborne networks provide the forces in a battlefield with up to date information concerning any situation that may be important to the armed forces.
This networking architecture and model was developed by the Air Force with the intention to connect the terrestrial, land and water components of any battlefield. Though developed to help the armed forces during their battles this networking model has led to the rise of airborne internet services provision model. It uses the same idea as the airborne networking but its aim is not to create private networks rather it is used to provide wireless internet services to those who have subscribed. The aircrafts are used as the hubs for the wireless internet.
Airborne internet uses a method known as High Altitude Long Operation (HALO) networking. In this case HALO aircrafts fly around a target region to provide the wireless internet. Three aircrafts are needed in each of the regions. Each aircraft operates for 8 hours. Due to the fact that the aircrafts are specialized in the sense that they provide network services consistent update and maintenance of the aircrafts is needed. This is also true when it comes to airborne networks as used by the Air force.
Connectivity
Due to the sensitive nature of this network model connectivity should be a priority. The connectivity needs to be reliable and fast. It should also be secure due to the sensitive information that the Air force handles. The coverage of the network is Beyond Line of Sight (BLOS) and it also extends globally. This is due to the fact that these networks are transportable i.e. they can be moved from one point to another thus giving the network a global coverage attribute.
The connectivity of the airborne networks also gives a diversity of links for different situations. Because these networks are used by the air force the links differ according to the environment and function (which may be to get system information or media information). The links also differ according to the kind of signal that the recipient requires. The signal can be either radio or optical. Network connections are also flexible and global.
Services offered by airborne networks
The first service offered is real time data. This means that the data is delivered at the exact time it has been gene ...
1. C A S E S T U DY | A I R P O R T
Chattanooga
Metropolitan Airport
“AirNet’s free wireless Internet (Wi-Fi) access gives Chattanooga passengers one more
opportunity to multi-task while they wait to board their flight. We appreciate AirNet’s partnership
in supporting the Airport’s customer service goals.”
Mike Landguth, President and CEO, Chattanooga Metropolitan Airport Authority
Challenge Results
Local authorities wanted to offer free, reliable high-speed wireless With a single high-speed Internet connection and just five Meraki nodes,
over their entire local airport complex, to serve travellers and the airport complex was blanketed in wireless signal within hours.
staff alike. But the terminals were far-flung and the construction
presented a wireless line-of-sight challenge and potentially
expensive barrier.
Meraki, Inc. | | 660 Island St. 2 St., San Francisco, CA 94110 | 415.632.5800 | www.meraki.com
Meraki, Inc.99 RhodeAlabama nd Floor, San Francisco, CA 94103 | 415.632. 5800 | www.meraki.com
2. Together with officials at Chattanooga Airport, AirNet Group had
the entire network installed and running within just a few hours.
Utilizing an Internet connection provided by AirNet, the Meraki
network automatically configured as soon as the products were
powered on. The Meraki hardware was installed inside false ceilings
and lighting soffits, for added security.
Because AirNet Group is responsible for ongoing support, they
needed a management service that would allow them to access
the network remotely. The web-based Meraki Dashboard suited
their needs perfectly. With the tools and features provided in
the Dashboard, AirNet Group can ensure that the Meraki mesh
network remains fully operable, and can change configurations on
the network with the click of a button from anywhere in the world.
Unlike previous solutions they had tried, Meraki’s wireless solution
continues to perform extremely well for the Chattanooga Metropolitan
Airport Authority and AirNet Group. The robust nature of Meraki’s
products ensure optimal uptime of the network, and requires little or
no adjustment to function properly. The result is the highly reliable
wireless network that currently services the entire airport.
“AirNet’s free wireless Internet (Wi-Fi) access gives Chattanooga
passengers one more opportunity to multi-task while they wait to
The Chattanooga Metropolitan Airport Authority wanted to provide board their flight. We appreciate AirNet’s partnership in supporting
ubiquitous wireless Internet access throughout their entire facility to the Airport’s customer service goals.”
service both airport customers and staff. To accomplish their goal, a —Mike Landguth, President and CEO, Chattanooga Metropolitan
local wireless Internet Service Provider (WISP), AirNet Group, was Airport Authority
brought in to make it happen.
To date, the network has supported more than 20,000 users. Not
Together with officials at Chattanooga Airport, only does the network allow airport customers and staff to use
the Internet, it also showcases Chattanooga Metropolitan Airport
AirNet Group had the entire network installed Authority as innovative and customer-focused to its passengers
and running within just a few hours. Utilizing and residents alike.
an Internet connection provided by AirNet, the
Meraki network automatically configured as
soon as the products were powered on.
To meet the requirements of the airport while keeping the total
project economically feasible, the AirNet team needed an affordable
solution that would prove easy to install, easy to manage, and
highly reliable. After using Meraki products in a number of other
applications, AirNet Group heard of Chattanooga Airport’s need
for a reliable network solution and knew that Meraki would be a
perfect fit. With only five Meraki nodes, the entire airport, including
the terminal, baggage claim, ticketing area, and coffee shop, was
blanketed with wireless Internet coverage.
Meraki, Inc. | | 660 Island St. 2 St., San Francisco, CA 94110 | 415.632.5800 | www.meraki.com
Meraki, Inc.99 RhodeAlabama nd Floor, San Francisco, CA 94103 | 415.632. 5800 | www.meraki.com