Widely deploying sensors in the environment and embedding them in physical objects is a crucial step towards realizing smart and sustainable cities. To cope with rising resource demands and limited budgets, opportunistic networks (OppNets) offer a scalable backhaul option for collecting delay-tolerant data from sensors to gateways in order to enable efficient urban operations and services. While pervasive devices such as smartphones and tablets contribute significantly to the scalability of OppNets, closely following human movement patterns and social structure introduces network characteristics that pose routing challenges. Our study on the impact of these characteristics reveals that existing routing protocols subject a key set of devices...
Abstract—Human-carried or vehicle-mounted sensors can be exploited to collect data ubiquitously for ...
International audienceVehicular Delay-Tolerant Networks (VDTNs) are composed of mobile nodes (vehicl...
Opportunistic networks (OppNets) provide a scalable solution for collecting delay‑tolerant data from...
Widely deploying sensors in the environment and embedding them in physical objects is a crucial step...
The rising human population in urban environments drives the mission towards smart cities, which env...
The rising human population in urban environments drives the mission towards smart cities, which env...
Opportunistic networks (OppNets) provide a scalable solution for collecting delay-tolerant data from...
Different opportunistic routing protocols have been proposed recently for routing in sensor networks...
Urban IoT data collection is challenging due to the limitations of the fixed sensing infrastructures...
Recently the increasing number of sensors integrated in smartphones, especially the iPhone and Andro...
User trajectories can be used to extrapolate personal infor- mation such as interests and movement p...
In Opportunistic Networks, portable devices such as smartphones, tablets, and wearables carried by i...
Mobile, delay-tolerant, ad hoc and pocket-switched networks may form an important part of future ubi...
International audienceVehicular Delay-Tolerant Networks (VDTNs) are composed of mobile nodes (vehicl...
OPPORTUNISTIC NETWORKS (ONs) have been attracting great interest from research community. The nature...
Abstract—Human-carried or vehicle-mounted sensors can be exploited to collect data ubiquitously for ...
International audienceVehicular Delay-Tolerant Networks (VDTNs) are composed of mobile nodes (vehicl...
Opportunistic networks (OppNets) provide a scalable solution for collecting delay‑tolerant data from...
Widely deploying sensors in the environment and embedding them in physical objects is a crucial step...
The rising human population in urban environments drives the mission towards smart cities, which env...
The rising human population in urban environments drives the mission towards smart cities, which env...
Opportunistic networks (OppNets) provide a scalable solution for collecting delay-tolerant data from...
Different opportunistic routing protocols have been proposed recently for routing in sensor networks...
Urban IoT data collection is challenging due to the limitations of the fixed sensing infrastructures...
Recently the increasing number of sensors integrated in smartphones, especially the iPhone and Andro...
User trajectories can be used to extrapolate personal infor- mation such as interests and movement p...
In Opportunistic Networks, portable devices such as smartphones, tablets, and wearables carried by i...
Mobile, delay-tolerant, ad hoc and pocket-switched networks may form an important part of future ubi...
International audienceVehicular Delay-Tolerant Networks (VDTNs) are composed of mobile nodes (vehicl...
OPPORTUNISTIC NETWORKS (ONs) have been attracting great interest from research community. The nature...
Abstract—Human-carried or vehicle-mounted sensors can be exploited to collect data ubiquitously for ...
International audienceVehicular Delay-Tolerant Networks (VDTNs) are composed of mobile nodes (vehicl...
Opportunistic networks (OppNets) provide a scalable solution for collecting delay‑tolerant data from...