Are you tired of attending networking events where you feel like a passive observer, blending into the background? It’s time to break free from the traditional exchange business cards and hope for the best approach. In this article, we will delve into the world of active networking – a game-changing strategy that can transform your networking experiences from mundane to exhilarating. Discover how to harness your social skills and take control of your professional connections, allowing you to build lasting relationships and open doors to new opportunities.
Active & Passive Networking:
1. What is an Active Networking?
An active network is an electronic network with active components such as amplifiers, routers, repeaters, switches, and hubs to transmit data between devices. These active components enhance the signals that pass through the network, ensuring they reach their intended destination without losing quality or strength. Active networks are commonly used in larger businesses, universities, and government organisations. Examples of Active Networks include LANs (Local Area Networks), WANs (Wide Area Networks), and MANs (Metropolitan Area Networks).
However, the downside of an active network is that it is more complex to set up and maintain than a passive network. The active components require power, which adds to the overall cost of the network. Moreover, active networks are more vulnerable to failure due to the number of components involved, making it important to have a reliable backup plan. Despite these drawbacks, an active network is a powerful tool providing reliable and efficient connectivity for various applications.
2. What is A Passive Networking?
A passive network is a type of network that does not use any active components, such as amplifiers or repeaters, to transmit data between devices. Instead, it relies on the inherent properties of the transmission medium, such as resistance, capacitance, and inductance, to transmit signals from one device to another.
The most common example of a passive network is a simple electrical circuit consisting of a voltage source, a resistor, and a load. The voltage source provides the electrical energy that drives the circuit, while the resistor and the load provide the necessary resistance to limit the current and create a voltage drop across the load.
Solutions we provide
1. Local Area Network (LAN)
2. Wide Area Network (WAN)
3. Software Defined WAN
4. Campus WIFI
1. Local Area Network (LAN):
A Local Area Network (LAN) is a network of interconnected devices within a confined area, such as an office, building, or home. It facilitates communication between computers and other devices through Ethernet or Wi-Fi connections. LANs enable shared access to printers, files, and various services by utilizing access points, cables, routers, and switches. These components allow devices to connect to web servers and internal servers within the network as well as establish connections with other LANs through Wide Area Networks (WAN).
2. Wide Area Network (WAN):
A wide area network (WAN) is a data network used for connecting computers over a wide geographical area. WANs are often used by larger corporations or organizations to enable the transfer of data. However, now even small businesses can benefit from WANs as a way of increasing their communications capabilities.
A WAN requires continuous maintenance. We take this responsibility off of your hands and provide you with a world class support system. The Software Definition portion of the WAN provides the intelligence, capable of instantly understanding the type of data being transmitted and what routing and security are needed to make it happen smoothly and efficiently.
This improves the WAN functionality at a lower cost for your organisation while being able to handle all kinds of voice and data transmission. SD-WAN is enabling our clients to move any kind of software application across multiple locations with better performance. As a managed SD-WAN service provider we offer installation services, maintenance and upgrades, monitoring and connectivity services.
3. Software Defined WAN:
With a Software Defined WAN (SD WAN), you have the ability to efficiently modify your entire network at an enterprise level. Our managed SD WAN services go above and beyond by offering around-the-clock support from our highly skilled professionals through our NOCs. SD WAN, short for Software-defined Wide Area Network, is perfect for businesses that operate from multiple locations, have a dispersed workforce, and utilize various applications.
4. Campus WIFI:
The entire campus of the University is equipped with Wi-Fi, providing high-speed internet access to students regardless of their location. The coverage extends beyond just classrooms, encompassing all facilities within the campus premises.
Conclusion:
Active and Passive networking both play important roles in building professional connections and advancing one’s career. While active networking involves proactive efforts to meet new people and create opportunities, passive networking allows for more organic connections to be made through online presence and reputation. Both approaches have their advantages and can be utilized depending on individual preferences and circumstances. It is crucial to find a balance between the two strategies, as active networking can lead to immediate results while passive networking can yield long-term benefits. By leveraging both methods effectively, professionals can maximize their networking potential and open doors to new opportunities in their careers. So whether it’s attending industry events or maintaining an engaging online presence, it is essential to actively network while also allowing for passive connections to flourish.
