A DTN-based architecture for public transport networks

Komnios, Ioannis; Kalogeiton, Eirini

doi:10.1007/s12243-015-0473-8

Cited by 5 publications

(6 citation statements)

References 26 publications

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“…Hence, any unsent data was stored for future flights to reduce the end-to-end latency of the delivered message. Focusing on urban environments, authors in [43] introduced a reference routing protocol for DTN-capable nodes, aiming to extend the Internet coverage in highly-dense environments, while in [44], DTN applications in existing infrastructure of public transport networks were investigated. Moreover, the work by [45] concentrated on practical experimentation to validate the effectiveness of DTN solutions in different scenarios, considering the routing in space.…”

Section: Related Workmentioning

confidence: 99%

Satellite-Assisted Disrupted Communications: IoT Case Study

Koukis,

Tsaoussidis

2023

Electronics

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In recent years, the space industry has witnessed a resurgence, characterized by a notable proliferation of satellites operating at progressively lower altitudes, promising extensive global coverage and terrestrial-level data transfer speeds, while remaining cost-effective solutions. In particular, Wireless Sensor Networks (WSNs) can benefit from the wide coverage of space infrastructure due to their extensive deployment, disrupted communication nature, and the potential absence of terrestrial support. This study explored the utility of Low-Earth Orbit (LEO) satellite constellations as a communication infrastructure for interconnecting “smart” devices via ground stations in Internet of Things (IoT) scenarios. To this end, we designed and implemented a series of experiments conducted within the OMNeT++ simulator, utilizing an updated iteration of the original Open Source Satellite Simulator (OS3) framework. Our research encompassed an IoT Case Study, incorporating authentic sensor data sourced from the Smart Santander testbed. Throughout our experimentation, we investigated the impact of the constellation design parameters such as the number of satellites and orbital planes, as well as the inter-satellite link configuration on the obtained Round-Trip Time (RTT) and packet loss rates.

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Section: Related Workmentioning

confidence: 99%

Satellite-Assisted Disrupted Communications: IoT Case Study

Koukis,

Tsaoussidis

2023

Electronics

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“…Their results provide a starting point for future research. Also, [3], [11][12][13][14][15][16][17][18] study data delivery over a bus network, similar to our research, but focuses on routing methods. As far as we know, there is not any known research on transmission scheduling method on a data port to meet userspecified delay constraints for large data object delivery over public transportations systems.smart mobile device sends/receives data within user's tolerant delay by using Wi-Fi as much as possible.…”

Section: Related Workmentioning

confidence: 99%

“…Examples include buses and rails, among others. References [3,4] reported that a similar approach that relies on the use of "data mule" carriers to extend the Internet connectivity in a rural area. We believe that the "data mule" concept can be leveraged to support delay-constrained transport of large-sized data objects via public transportation facilities.…”

Section: Introductionmentioning

confidence: 99%

Transmission Scheduling Method for Delivery of Large-Sized Data Object based on Delay Constrained Request over Scheduled Transportation Vehicles

Kashihara

2018

EPI-IJE

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The paper proposes two transmission scheduling methods to deliver large-sized data object based on delay constrained request over scheduled transportation vehicles. Scheduled transportation vehicles like buses and rails have the potential to provide data communication for delaytolerant large data object based on delay-/disruption-tolerant network (DTN) concept as a part of the Internet. However, since the operation of vehicles follows the timetable, even if the vehicles carry users' data objects, they may not always deliver the objects to their destination within their requested delay. As one of the approaches, to satisfy the delivery with delay requests, our previous paper presented the design of data offloading to public transportation vehicles. In the model, if a data port accepts data objects from users in a first-come, first-served (FCFS) schedule, the system cannot guarantee to deliver data objects within requested delay. In this paper, as the first step under the design, we propose two transmission scheduling methods for uploading data at a data port. Simulation evaluations demonstrate that the proposed methods significantly improve the successful data delivery compared with FCFS.

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“…It is one subtype of DTN, where nodes (vehicles) store and carry network data while waiting for opportunities to forward it. Komnios et al [3] introduced a CARPOOL+ routing technique of public transport by providing hotspot internet connectivity to all users and prior knowledge of their contacts. Similar work has been presented in [4], the author considered data center as a central point to pick up and deliver significant amount of data using public transport.…”

Section: Introductionmentioning

confidence: 99%

Big Data Offloading using Smart Public Vehicles with Software Defined Connectivity

Munjal

Liu

et al. 2019

2019 IEEE Intelligent Transportation Systems Conference (ITSC)

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With the explosive increase in the number of mobile devices such as smartphones or laptops, the design of mobile applications becomes increasingly complex, power hungry and resource consuming. Therefore, conventional networks are facing serious problems such as traffic overload and energy consumption due to high traffic demands. As a result, network designers are looking for more options to accommodate numerous data requirements. Aiming to find a promising way to tackle this problem, we are investigating heterogeneous networking architectures, which utilize the existing public transport network as an alternative communication network along with infrastructure-based networks. We propose a heterogeneous network architecture called Software Defined Connectivity (SDC) that utilizes the flow of transport network such as buses, trains, and ferries to start the forwarding process from nearby parking/offloading spots to disseminate data along with conventional networks. Results show that the SDC architecture helps in data offloading over public transport vehicles as per the profiles of each user with significant savings of energy.

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A DTN-based architecture for public transport networks

Cited by 5 publications

References 26 publications

Satellite-Assisted Disrupted Communications: IoT Case Study

Satellite-Assisted Disrupted Communications: IoT Case Study

Transmission Scheduling Method for Delivery of Large-Sized Data Object based on Delay Constrained Request over Scheduled Transportation Vehicles

Big Data Offloading using Smart Public Vehicles with Software Defined Connectivity

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