In recent years, efficient foundation is provided for research by various latest mechanisms such as Ad hoc networks, specifically vehicular ad hoc networks (VANETs), mobile ad hoc networks (MANETs), and wireless sensor networks (WSNs) because of having specific features based on adaptability, self-organization, and decentralization. Regarding different factors of ad hoc networks, we offer numerous project topics and plans that could be appropriate for realistic deployment, thesis projects, or educational-based research:

  1. Routing Protocol Design and Analysis for MANETs
  • Goal: Specifically for MANETs, create a novel routing protocol. On the basis of scalability, credibility, and effectiveness, this protocol is enhanced over previous protocols. By considering various network constraints, this project could include the process of comparative analysis based on conventional protocols such as OLSR, DSR, or AODV.
  1. Security Enhancements in Vehicular Ad Hoc Networks (VANETs)
  • Goal: In opposition to general assaults like impersonation, Sybil assaults, or distribution of fake messages, secure VANETs by modeling and applying safety mechanisms. Several approaches such as trust management systems, cryptography, or anomaly identification could be included in this study.
  1. Energy-Efficient Communication in Wireless Sensor Networks (WSNs)
  • Goal: With the aim of expanding the durability of the network, energy-effective interaction policies have to be explored and created for WSNs. Energy-aware routing protocols, duty cycling, or data aggregation approaches could be encompassed.
  1. QoS Optimization in Real-Time Applications over Ad Hoc Networks
  • Goal: By concentrating on arguments such as packet loss, jitter, latency, and bandwidth, model a protocol or framework, especially for actual-time applications such as video streaming or VoIP in ad hoc networks. This modeled protocol or framework must have the ability to assure Quality of Service (QoS).
  1. Cross-Layer Design for Performance Improvement in MANETs
  • Goal: To optimize the performance of MANETs, investigate cross-layer design techniques. For reinforcing safety, energy effectiveness, and routing decisions, the data based on different layers of the OSI model is utilized in this technique.
  1. Machine Learning-Based Mobility Prediction in MANETs
  • Goal: In MANETs, forecast node mobility and alter resource allotment or routing in an effective manner through the employment of machine learning methods. To design mobility structures, utilization of previous data could be encompassed in this project.
  1. Platoon Management in VANETs for Smart Transportation
  • Goal: With the intention of improving traffic effectiveness and road safety, create a system to accomplish effective platoon management in VANETs. In terms of vehicle variations and network constraints, this project considers the creation, maintenance, and termination of platoon by including methods.
  1. Self-Healing Networks: Recovery from Node Failures in Ad Hoc Networks
  • Goal: For preserving service endurance and network connections in ad hoc networks, apply mechanisms to identify and retrieve from node faults in an automatic manner. Various approaches such as self-organization techniques, dynamic topology alteration, or redundant paths could be involved in this project.
  1. Integration of Ad Hoc Networks with IoT
  • Goal: By considering the settings in which there is an undependable or absence of conventional network framework, this project explores the combination of ad hoc networking concepts with the applications of IoT. Some important instances relevant to remote tracking, smart cities, or disaster recovery could be examined.
  1. Privacy-Preserving Data Communication in VANETs
  • Goal: Aim to model a protocol or system that enables protective and effective interaction in addition to assuring user confidentiality in VANETs. Differential privacy, secure multi-party computation, or anonymous communication methods are the major techniques that could be included in this study.
  1. Cognitive Radio Networks for Dynamic Spectrum Access in Ad Hoc Networks
  • Goal: To enhance network ability and minimize interruptions, the potential of cognitive radio mechanisms in ad hoc networks has to be investigated, specifically to access unused spectrum bands in a dynamic way.
  1. Underwater Acoustic Sensor Networks (UW-ASNs)
  • Goal: By examining some important factors in the aquatic platform, including energy utilization, effective routing protocols, and credible data sharing, solve the issues in underwater sensor networks relevant to communication.

How do I create an ad hoc network?

The process of creating an ad hoc network is examined as interesting as well as difficult. It is crucial to follow several guidelines and procedures to carry out this work in an efficient manner. For arranging an ad hoc network on various environments, we suggest fundamental instructions to consider:

Windows 10

  1. Open Command Prompt as Administrator: First, you should right-click on the Start menu, and then choose “Windows PowerShell (Admin)” or “Command Prompt (Admin)”.
  2. Allow Wireless Hosted Network:
  • By executing netsh wlan show drivers, verify if the hosted networks are supported by your Wi-Fi card.
  • After that, wait for the statement such as “Hosted network supported: Yes”.
  1. Build the Network:
  • For building the ad hoc network, consider: netsh wlan set hostednetwork mode=allow ssid=YourNetworkName key=YourPassword
  • By including your preferred network name and a protective password, change YourNetworkName and YourPassword.
  1. Initiate the Network:
  • You need to begin the hosted network by considering: netsh wlan start hostednetwork
  1. Share Internet Connectivity (if required):
  • The initial step is to select “Control Panel” > “Network and Sharing Center” > “Change adapter settings”.
  • Then, right-click your primary internet connectivity such as Wi-Fi from where you acquire internet or the Ethernet, and choose “Properties”.
  • After choosing properties, select the “Sharing” label, and verify “Allow other network users to connect through this computer’s Internet connection”.
  • Choose the network adapter which is parallel to the hosted network that is currently built by you. Note that the network adapter can be selected from the drop-down menu of “Home networking connection”.

macOS

  1. Initially, Open System preferences and select “Sharing”.
  2. Internet Sharing:
  • On the left side, choose “Internet Sharing” from the list.
  • From the “Share your connection from” option, select the connectivity that you plan to share (for instance: Ethernet).
  • Consider “Wi-Fi” in the “To computers using” list.
  1. Wi-Fi Options:
  • Set up the name of your network (SSID), security (WPA2 is suggested), channel, and password by selecting “Wi-Fi Options”.
  1. Allow Internet Sharing:
  • To enable sharing, consider the box that is placed next to “Internet Sharing” on the list.
  • In order to initiate distributing your connectivity, approve the activity at last.

Linux (Ubuntu)

  1. Build a Wi-Fi Hotspot:
  • For Linux OS, you have to open “Settings” and choose “Wi-Fi”.
  • In the top-right corner, go to the menu and choose “Turn On Wi-Fi Hotspot..”.
  • To set up your hotspot by encompassing the password and name of the network (SSID), adhere to the guidelines.
  1. Share Internet Connectivity (if needed):
  • If you intend to share internet connectivity by means of ad hoc network, there might be a requirement to arrange NAT principles and IP forwarding, Alteration of sysctl arrangements and iptables principles is included in this. Specifically for unconventional users, this approach is suggested.

Android and iOS devices

  • The creation of an ad hoc network is not directly facilitated by the latest Android and iOS devices. This inconvenience is caused by the aspects related to safety and accessibility. Though, there is a possibility to build a flexible hotspot. Based on sharing the internet connection of your device with other devices, this hotspot can offer support.
  • Android: First, you need to select “Settings” > “Network & Internet” > “Hotspot & Tethering” > “Wi-Fi Hotspot”. After that, set up your hotspot.
  • iOS: In the iOS-based devices, choose “Settings” > “Personal Hotspot”. To set up your hotspot, click “Allow Others to Join”.
Ad Hoc Network Project Ideas

Ad Hoc Network Projects Topics & Ideas

Delve into a selection of innovative Ad Hoc Network project topics and ideas that have been curated for scholars, accompanied by high quality  coding and simulation assistance. Our services cater to a wide range of project requirements, and we provide exceptional thesis writing services tailored to students at every academic level.

  1. Interventions of river network structures on urban aquatic microplastic footprint from a connectivity perspective
  2. Exploring the relationship between the spatial distribution of roads and universal pattern of travel-route efficiency in urban road networks
  3. Retrofit heat exchanger network optimization via graph-theoretical approach: Pinch-bounded N-best solutions allows positional swapping
  4. Multiple description encoding-decoding-based resilient filtering for complex networks under the round-Robin protocol
  5. DA-SRN: Omics data analysis based on the sample network optimization for complex diseases
  6. ResFuseYOLOv4_Tiny: Enhancing Detection Accuracy for Lightweight Networks in Infrared Small Object Detection Tasks
  7. Enforcing Dirichlet boundary conditions in physics-informed neural networks and variational physics-informed neural networks
  8. Evolving geometries, topologies, and apertures in fracture networks: Quantitative insights from lattice modeling
  9. A pole-to-ground fault location method for DC distribution network based on high-frequency zero-mode current sparsity
  10. A network slicing algorithm for cloud-edge collaboration hybrid computing in 5G and beyond networks
  11. TMS over the pre-SMA enhances semantic cognition via remote network effects on task-based activity and connectivity
  12. Network resource management mechanisms in SDN enabled WSNs: A comprehensive review
  13. REcaNet: Residual neural networks with initialized weights and attention mechanism for image propagating in multimode optical fiber restoration
  14. Deep multi-feature fusion residual network for oral squamous cell carcinoma classification and its intelligent system using Raman spectroscopy
  15. Multi-layer double deep Q network for active distribution network equivalent modeling with internal identification for EV loads
  16. A Hybrid Generative Adversarial network with Quantum U-NET for 3D spine X-ray image registration
  17. On the sensitivity of pose estimation neural networks: Rotation parameterizations, Lipschitz constants, and provable bounds
  18. Active distribution system planning considering non-utility-owned electric vehicle charging stations and network reconfiguration
  19. Revisiting the effects of social networks on enterprise collaboration technology use: A fuzzy-set qualitative comparative analysis approach
  20. A novel numerical approach for time-varying impulsive fractional differential equations using theory of functional connections and neural network

Important Research Topics