4ipnet offers affordable, comprehensive and effective WLAN solutions to meet evolving capacity and performance demands while reducing total cost of ownership. By integrating user policy enforcement, wireless optimization features, social media insights, and hotspot billing, empowering businesses with value-added services and Wi-Fi monetization. Our mission is to strive for excellence in our products while building strong, lifelong relationships with our customers and partners
4ipnet will presents its product and solution next year, from June 5-9 at Computex Taipei 2012!
If you are interested in partnering with us, please considering vising our booth during that time, as our newest products will be displayed.
This is a great time for our clients to meet our staff members face to face, make new acquaintances, and discuss future business opportunities
Below are a few fact regarding Computex Taipei, taken from www.computextaipei.com
Computex Taipei Show Features COMPUTEX TAIPEI has become the largest computer exhibition in Asia and the second largest in the world, next to CeBIT in Germany. Each year, key global businesses come to this event to launch their new products. Since a large portion of the businesses in the world have research and deployment centers or production facilities in Taiwan, this exhibition attracts observers, analysts, and journalists of computer and information industries from all over the world to discover and report the latest technologies…
4ipnet announced the release of its new feature: High Availability (HA), integrated within its Gigabit Secure WLAN Controller Product Line TAIPEI, TAIWAN – November 8th, 2011 - 4ipnet, Inc., a leading wireless networking device provider for manageable, reliable, and secure wireless access, announced the release of its new carrier grade feature: High Availability, integrated within Gigabit Secure WLAN Controller WHG707. High Availability (HA) approach taken by 4ipnet uses a “1+1” redundancy design to achieve higher service availability with minimum impact during service transitions. The solution architecture adopted is a Primary / Secondary Controller pair where the Primary Controller will be servicing all network traffic while the Secondary Controller updates status events in real time and is ready to take over the network service in case the Primary Controller malfunctions. The hot-standby design of the Secondary Controller implies immediate service switch over, thus considerably impro…