a network system's software components
The most popular kind of networking software is protocols, which explain to network devices how to join to the network and communicate with one another. hardware
Ethernet repeaters, modems, routers, and network switches are examples of network equipment. Hardware is the basis of a network system.
media relationships
The medium used to connect the network's nodes varies depending on the type of network. Without connections, a network cannot function.
client devices
Client devices are the computers and mobile phones that are connected to the network. It makes access easier.
All these things are necessary to run a workshop on network system design within the organisation.
the linkage between related fields and network systems.
Network systems can be divided into two groups:
When communicating peer-to-peer, each computer sends and receives data to every device directly. There is no main server. The TCP/IP protocol is used.
Each computer transmits data through a shared network via a computer that is centrally controlled. Common names for this type of computer include "Server" and "Print Server." Its duty is to control how each print job is printed.
The operation of a workshop requires the cooperation of many components.
As part of the requirements analysis, list the requirements for each component or
related area presented in the exhibit. Include the following components or network
areas:
C. Network systems and related embedded systems.
- Protocols: Requirements may include support for various protocol standards such as TCP/IP, HTTP, SMTP, etc. It should also support secure communication protocols like SSL/TLS.
- Hardware: Requirements may include the need for reliable and high-performance network equipment such as routers, switches, and modems. These components should provide sufficient bandwidth, scalability, and support for various network interfaces.
- Media Relationships: Requirements may include support for different types of network media such as Ethernet, Wi-Fi, fiber optics, etc. The network system should be able to handle the specific media requirements of the organization.
- Client Devices: Requirements may include compatibility with a wide range of client devices such as computers, smartphones, tablets, etc. The network system should be able to handle different operating systems, network interfaces, and device capabilities.
- Peer-to-Peer Communication: Requirements may include support for peer-to-peer communication where devices can directly send and receive data to each other. The network system should provide the necessary protocols and mechanisms for efficient and secure peer-to-peer communication.
- Server-Based Communication: Requirements may include support for server-based communication where a centralized server controls the transmission and distribution of data. The network system should provide server capabilities and support for server applications such as print servers, file servers, etc.
- Embedded Systems: Requirements may include support for embedded systems that are part of the network infrastructure, such as network controllers, IoT devices, etc. The network system should provide the necessary interfaces, protocols, and management capabilities to work with embedded systems.
- Security: Requirements may include the need for strong network security measures such as firewalls, intrusion detection systems, encryption, access control, etc. The network system should provide robust security features to protect against unauthorized access, data breaches, and other security threats.
- Management and Monitoring: Requirements may include the ability to manage and monitor the network system, including features like network monitoring, performance analysis, fault detection, configuration management, etc. The network system should provide comprehensive management tools and interfaces for efficient network administration.
Requirements for Network Systems and Related Embedded Systems:
1. Protocols:
- Compatibility with various network devices and operating systems.
- Support for secure and reliable data transmission.
- Ability to handle different types of network traffic, such as voice, video, and data.
2. Network Equipment:
- Reliable and scalable hardware components.
- Support for high-speed data transmission.
- Ability to manage and control network traffic effectively.
- Compatibility with different network topologies.
- Support for advanced features like Quality of Service (QoS) and VLANs.
3. Media Relationships:
- Support for diverse types of network media, such as Ethernet, Wi-Fi, and fiber optic.
- Compatibility with different network interface cards/devices.
- Ability to handle different network media distances and speeds.
- Support for duplex modes (half-duplex or full-duplex) as per requirements.
4. Client Devices:
- Compatibility with different operating systems (Windows, macOS, Linux, mobile OS).
- Support for various network connectivity options (wired, wireless, cellular).
- Ability to handle different network protocols and standards.
- Support for network security features like VPN, firewall, and encryption.
- Integration with productivity tools and software applications used by employees.
5. Embedded Systems:
- Compatibility with hardware sensors, devices, and interfaces.
- Support for real-time data processing and communication.
- Ability to handle data from multiple sources simultaneously.
- Support for low power consumption and energy efficiency.
- Advanced security features to protect against vulnerabilities and cyber threats.
6. Overall:
- Scalability to support growth and expansion of the network.
- Ease of management and administration.
- Robustness and reliability to minimize downtime.
- Support for network monitoring and performance analysis.
- Compliance with relevant industry standards and regulations.