DTN is a line of attack to address the scientific hindrance in the heterogeneous network which is highly employed in the lack of unceasing network connectivity. Our Delay Tolerant Networks Paper Publication Guidance was specially hired to spring up the infinite number of budding research ideas for early publication in the Delay-Tolerant Networking (DTN) field.
What is routing in DTN?
In recent days, the growing number of smartphone users and wireless devices has resulted in a significant rise in data volume. In such data-intensive systems, DTN routing is partly responsible for data routing, broadcasting, and collection. Hence in a short time, the data-intensive routine has become one of the upcoming puzzling issues in DTNs. Here, huge data will pass on from one node to another utilizing data size which is transferred in a single contact and accessible buffer size at relay nodes. In addition, we are currently on other upcoming domains in the DTN area. And, some of the research topics from Delay Tolerant Networks Paper Publication Guidance are given below,
Research Areas in Delay Tolerant Network
- DTN for Satellite Communications
- Space communication is usually regarded as extended link delay and recurrent link interferences.
- Regardless of these features, DTN has designed in-space communication to support automatic communications.
- DTN for Deep Space Communications
- Delay or Interference Tolerant Network brings up an innovative solution to get overstressed communications indeed space mission
- Especially suits for space environment with long link delay and constant link disruptions
- Vehicular DTN (VDTN)
- Vehicular Delay-Tolerant Networks (VDTNs) is a new research platform in DTNs where vehicles communicate with everyone
- Whereas, it is assembled with fixed nodes along the roadways to broadcast messages.
- DTN for Underwater Communications
- Underwater networks (UWNs) have the potential to find applications in a wide range of aquatic activities. And, some of them are particularized below,
- Underwater Data Collection
- Tactical Surveillance
- Seismic Monitoring
- Assisted Navigation
- Offshore Investigation
- Pollution Intensive care
- In many cases, these networks will operate in tough and controlled environs where communication disruption
- Underwater networks (UWNs) have the potential to find applications in a wide range of aquatic activities. And, some of them are particularized below,
- DTN for Emergency Communications
- DTN is broadly used to enhance current conditions awareness during the large-scale disaster
- Delay or Disruption Tolerant Networks is used in both man-made and natural disaster troubled areas
- Particularly used in the case of communication breakdown and power failure
Network Simulation Tools in DTN
Simulation testing of DTN protocol began with the common network simulation software such as NS-2, NS-3, Omnet++ and OPNET. Certainly, these simulation tools are universally used for all general networks. Since it enables us to work on mobile and wireless networks. Hence, we can execute our DTN projects in the following tools and simulators,
- Linux
- JSON
- INGA
- TelosB
- iMote2
- Contiki OS
- Ben WPAN
- Android iOS
- Raspberry Pi
- Arduino Yún
- Qualcomm Vuforia
Testbed Emulators for DTN
TUNIE offers an extensive variety of opportunities to users for designing their desired experimental settings conveniently. Moreover, it has the user’s choices of mobility scenarios, routing protocols, and applications.
System-level Parameters and Characteristics of TUNIE testbed Emulator
Node Virtualization
- Physical Server – Intel X5550 2.6G 4 core CPU, 16 GB Memory, 800GB Hard Disc, and Cisco 350 WiFi Adaptor
- Virtual Node – 1 Virtual CPU, 256 MB Memory, 4 GB Hard Disc, Virtual Tap Network Interface, CentOS
- Virtualization Efficiency – 32 Virtual Nodes/Physical Server, Full Virtualization, CP Utilization Efficiency > 80%
Link Virtualization
- Wired Port and Link – Tap rate = 10,000 ± 100kb/s, Open vSwitch Port Rate Control: Max =20 Mb/s, Min=0.5 Mb/s
- Wireless Links – Frequency:2.4-2.4897 GHz; Data Rates: 1, 2, 5.5 and 11 Mb/s; Transmit Power: 0-20dBm
DTN Protocol Stack
- Routing Protocols – Static, Flooding, Two-Hop Relaying, Spray and Wait, Delay-Tolerant Link State Routing
- Transmission Protocols – TCP, UDP, Ethernet, Bluetooth, Serial
- Storage Size Setting – Bundle Storage: 2 MB-10 GB; Message Storage: 16 KB-2MB
As currently defined, IEEE Network covers the following areas. So far, we have discussed the research and code development perspective of DTN area. Now, we are going to see about our research paper and its publication service.
How to Publish Research Papers in Journals?
At this point, we are very dedicated in on-time research papers publication at high-impact factor journals. Especially, Delay Tolerant Networks Paper Publication Guidance exposes the research on basis of analysis, design and execution of delay tolerant networks. So that, the unique evolving service areas and applications are facilitated through such research ideas,
Top Journals for Delay Tolerant Network Paper Publication
- IEEE Transactions on Control of Network Systems
- Aims & Scope
- Synchronized Control and Assessment over networks
- DTN over Sensor Networks
- Communication Constraint based Control
- Performance inspection issues in the Dynamic Networks used in Application Areas
- Impact Factor – 4.802
- Journal Calendar – 2014-ongoing
- Aims & Scope
- IEEE Transactions on Cognitive Communications and Networking
- Aims & Scope
- Design of Cross-layer and Cognition Cycle
- Cognitive Network Model and Protocols
- Spectrum Functionalities (like Sensing, Trading and Sharing)
- Software-Defined based Cognitive Radios Networks
- Distributed End-to-End OSI Layer Communication
- Cognitive Network Information Safeguard and Prevention from Attacks
- Artificial Intelligence that covers ML / DL for cognitive networks
- Impact Factor – 8.000
- Journal Calendar – 2016-ongoing
- Aims & Scope
- IEEE Network
- Aims & Scope
- Management of Network
- Practical Network Executions
- Network Control and Signaling
- Network Protocols and Frameworks
- Protocol Modeling and Validation
- Communication Software Development and Test
- Impact Factor – 7.503
- Review Time – 12 Week(s)
- Aims & Scope
To know more about our services in DTN, please reach out to our research team. Our technical legends are happy to assist you in every possible way.