An optical communication refers to the communication system which sends data across two or more locations using light pulses rather than electronic impulses or signals. Optical networks have recently gained a lot of popularity amongst learners. Since one of its many advantages is the ability to transfer large amounts of data, like audio, videos, etc. Experts of ours are currently at the foundation of many optical network breakthroughs. In this article, we provide you with a complete picture of all aspects of Optical Communication mini projects research with a focus on their smartness and dynamic nature. Let us start with the types of optical fibres

Implementing Optical Communication Mini Projects


The following are the major types of optical fiber communication networks

  • Single mode
    • Single mode Fiber optics cable is deployed in wide area and metro area networks
    • The constraints include noise of the amplifier and non-linearity of the fibers
  • Step index multi-mode
    • Step index multi-mode fiber optics networks are used in local area networks
    • Large modal dispersion is one of the major constraint of this method
  • Graded index multi-mode
    • Local area and campus area networks are the places where graded index multi-mode optical networks are deployed
    • Moderate modal dispersion is the major limitation of this type
    • Throughput without WDM is about one gigabytes per second

Our experts are well aware of all these types of optical fiber networks and the advancement being made in multiple aspects within these types to enhance their efficiency. Since we have 15 years of experience in optical communication mini projects and advanced research projects we are capable of providing ultimate research guidance in the field to you. Let us now look into the merits of optical communication, 

Advantages of optical communication

  • Easy to use, cost effective and modify
  • Reduced degradation of the signals and lightweight
  • Minimal power is consumed and its deployment is highly economical
  • Non-flammable fibers and thinness are its meritorious nature

As a result of these advantages, optical fiber communication is preferred on a large scale these days. Although you might have come across certain real-time implementations of optical fiber systems, here are our experts to provide you with detailed demonstrations and practical explanations with a variety of real-time examples to help you get a big picture on all the aspects of optical fibers. Get in touch with our technical team to get your queries resolved. Let us now look into the optical communication types below

What are the types of optical communication? 

  • Ultra long range
    • Ground to satellite 
    • Satellite to ground
    • Inter satellite links 
    • Deep space missions
  • Ultra short range
    • Chip to chip communication
  • Long range
    • Terrestrial communication
    • Buildings and extensions in metro areas
  • Medium range
    • Visible light communication 
    • Indoor IR
    • Wireless local area networks
    • Vehicle to infrastructure and vehicle to vehicle communications
  • Short range
    • Wireless body area networks 
    • Wireless personal area networks

In these ways, different types of optical communication networks are suitable for different kinds of deployments. To have a complete comparative analysis on the specific objectives for which these networks with their advantages under different environments, you can readily reach out to us. Let us now talk about the different kinds of optical communication links in the following

Types of Optical Communication Links 

  • Directed LOS link
    • In Loss of Signal (LOS) that is directed the beam angles associated with the transmitter and the Field of View (FOV) of the receivers are both relatively narrow in this connection mode.
    • The sender and receiver are pointed in the same direction.
    • This design is suitable for establishing a point-to-point network for indoor communication.
  • Multi beam quasi diffused link
    • A multi-beam diffuse transmitter, often called a quasi-diffused transmitter, replaces a single broad beam diffused transmitter in this sort of communication.
    • The many narrow rays are pointing in distinct angles outwards.
    • Angle diversity receivers gather such information signals.
  • Non – directed LOS link
    • The beam angle of both the transmitter as well as detector FOV is sufficiently large in this form of connection to guarantee access all through the enclosed environment.
    • In contrast to directed LOS, these linkages don’t really necessitate precise targeting and alignments.
    • Yet, for a certain path length and power flow, the receiving irradiation is lowered within this scenario.
    • Because it delivers the needed high mobility, such a link is ideal for point-to-multipoint broadcasting applications.
    • If the space is wider, it could be split into many optic units, each of which can be commanded by a distinct transmitter with regulated divergence of the beam.
  • Diffused link
    • The transmitters within this type of connection are addressing the ceiling, roofs and sending a wide beam of infrared light towards ceilings.
    • After many reflective mechanisms from wall surfaces or interior furnishings, the IR signal is captured by a detector mostly on floor with a broader FOV.

Usually, you can get all technical notes from benchmark references, so that you gain access to all kinds of reliable, authentic, and highly useful research data needed for your optical communication mini projects. Our developers and engineers have gained world-class certification in optical fiber communication research and so we are well aware of the latest technological advancement and breakthroughs in the field. 

Mechanisms for Optical Communication

  • Pre transmission mechanism
    • Dedicated channel based coordination is allowed through pre – transmission
  • Scheduling mechanism
    • Transmitter action and reception is conducted by scheduling based on statistical data
    • It is calculated regularly through distributed and decentralized algorithms
    • Scheduling is used primarily for the coordination of communication

Are you looking for expert help in writing proper algorithms, advanced protocols, and executing the codes you have written? If yes, then you have found the most trusted online research guidance facility to provide solutions to your queries. We are capable of addressing any kind of issues and concerns related to optical communication almost instantly. Check out our website for the successful projects that we delivered. Let us now have a look into the research related concerns in optical communication.

Optical Communication Research Project
  • Speed limitations in optoelectronic systems
  • Artificial noise based interference and multipath dispersion
  • Huge path loss and detector noise in indoor circumstances as a result of fluorescent, sunlight and incandescent

Previously our technical experts have got exposed to such kinds of research issues in optical communication and have delivered potential solutions to address these problems. Contact us for the details on optimal solutions that we proposed to solve these constraints. We will now discuss the top technologies associated with optical communication.

Optical Communication Technologies

  • Optical burst Switching (OBS)
    • Optical burst switching (OBS) refers to an optical networking method that provides data to be switched dynamically at sub-wavelength intervals.
    • OBS can be seen as a balance around full optical packet switching (OPS), which is still impractical, and essentially stable optical circuit switching (OCS).
    • As OBS relevant data is conveyed independently in a dedicated optical channel and ahead of the data packet, it departs from such models.
  • Optical Circuit Switching (OCS)
    • Optical Circuit Switching (OCS) seems to be a technique for optical networking.
    • The framework is built in OCS for construction of a connection from an entrance to that of an exit point by changing the optical crossing link connections in the routing in such a way that perhaps the transmitted signal could flow even from the admission to the end device.

Apart from these technologies you as a researcher in optical communication mini projects are expected to have very good ideas on the following techniques too.

  • Radio and microwave wireless communications, free space optical networks and DSL (upon the Copper twisted pair)
  • Single mode fiber – TDM and WDM (over passive optical networks) and QAM (over hybrid fibre coaxial networks)

We are here to provide you with complete result support and assistance which range from selection of the topic to successful project completion including thesis writing, Dissertation Writing, paper publication, and proposal writing in your field of research. We have got experienced and highly qualified teams of writers, developers, engineers, and technical experts to guide you in all aspects of your research. Let us now talk about selecting the best topic for your mini project

How to select a mini project topic?

Experts suggest the following points and aspects considered for selecting a optical communication mini projects topic

  • Current trends analysis
    • Every mini project carried out using old and obsolete techniques might have no prospective potential.
    • Employ mini projects for mastering the modern software which are trendy at the moment, since they give a perfect platform for someone like you to master technological skills.
    • Look up contemporary methodologies on the internet and read a great deal of blog posts, articles to learn more about technologies
    • Choose the technique which thus interests you the most and that you want to discover more about based on your investigation, and afterwards undertake a mini project on this to boost your reputation.
  • Takeup to solve real-time issue
    • Every mini project completed without any applications or practical solution has no use other than to get marks.
    • Choose a mini project which centres round the social purpose or perhaps an ecological disaster, as your mini projects transcend well beyond grade levels.
    • Ever more convincing the cause for the mini projects, the further determined your organization will be to complete it.
  • Mini project feasibility has to be verified
    • It’s indeed commendable to be optimistic and hesitant when selecting a difficult mini project for completion as a portion of the degree programme.
    • However, proceed with caution and double-check the viability of accomplishing that specific mini project prior to committing.
    • So, before you begin to work on a mini project, be sure it’s feasible to finish it.
  • Complete research on mini project 
    • No one really prefers to see a mini project that is done over and over again.
    • If it’s not a whole new mini project, you should at the very least include in your analysis a better awareness or knowledge which you gained from executing that mini project.

Our technical team is ready with all kinds of resources, huge experience, and enough knowledge to be supportive of all these aspects stated above. Get in touch with us to have access to the topmost research journals and standard reference books for your Optical communication mini projects. Let us now talk more about the emerging technologies and optical communication

Overview of Optical Communication Mini Projects - Research Guidance

Optical Communication Research Ideas

  • Security of the network and selecting optimal path
  • Resolution of contention and smart mode transition
  • Traffic grooming, partitioning of network and adaptive offset identification

Usually, our technical team stays highly updated on such emerging technologies to give our customers a more holistic and interesting research experience. The future scope of optical fiber communication depends on the following aspects,

  • Adaptive system based learning for the improvement of reduced complexity based system design
  • Faster adaptive optics and electronics systems
  • Multi-input and multi output transmissions
  • Multimode media extension including polymer waveguides (for board level interconnections)

In general, we stay with our customers even beyond their project completion to encourage future research. By doing so we are also providing complete work privacy and confidential research support. Hence you can get in touch with us for all kinds of help related to your research. Let us now see some of the topmost and trending research topics in optical communication mini projects

The fifth-generation communication technologies which include ultrahigh network density protocols, enhanced CPRI solutions, massive MIMO, heterogeneous device environment, front haul solutions based on Ethernet, and so on are used in revolutionizing the optical fiber communication to provide for increased scalability and flexibility of the middle and front haul establishments. 

Top 10 Research Topics for Optical Communication Mini Projects

In this regard let us look into the following important optical communication mini project topics

  • Experimentation and applications using optical Ethernet
  • High density context-based optical network solutions
  • C – RAN function placement and reliability in optical networks
  • 5G optical networks controlled by SDN
  • Optical networking methods for Time Sensitive Applications
  • Applications based on 5G transport networks and its convergence
  • C – RAN traffic aggregation and constraints on latency
  • Deployment and virtualisation of cloud RAN networks
  • WDM optical network reconfiguration with support to 5G
  • Advanced solutions for placement and splitting in network functions

Currently, we offer research support and project assistance on all these topics. We are also ready to support you in any novel topic of your interest and choice. Reach out to us to do the best optical communication mini projects.