For participatory sensing, task allocation is a crucial research problem that embodies a tradeoff between sensing quality and cost. An organizer usually publishes and manages multiple tasks utilizing one shared budget. Allocating multiple tasks to participants, with the objective of maximizing the overall data quality under the shared budget constraint, is an emerging and important research problem. We propose a fine-grained multitask allocation framework (MTPS), which assigns a subset of tasks to each participant in each cycle. Specifically, considering the user burden of switching among varying sensing tasks, MTPS operates on an attention-compensated incentive model where, in addition to the incentive paid for each specific sensing task, ...
The IoT era observes the increasing demand for data to support various applications and services. Th...
Participatory sensing is a paradigm through which mobile device users (or participants) collect and ...
Piggyback crowdsensing (PCS) is a novel energy- efficient mobile crowdsensing paradigm that reduces ...
For participatory sensing, task allocation is a crucial research problem that embodies a tradeoff be...
This paper proposes a novel task allocation framework, PSTasker, for participatory sensing (PS), whi...
Task allocation is a fundamental research issue in mobile crowd sensing. While earlier research focu...
This paper proposes a novel multi-task allocation framework, named PSAllocator, for participatory se...
In Mobile Crowd Sensing (MCS), task assignment and user selection to minimize the total incentive co...
International audienceParticipatory Sensing is a new paradigm of mobile sensing where users are acti...
In a practical Mobile Crowd Sensing (MCS) system, there usually exist multiple heterogeneous MCS tas...
International audienceTask allocation or participant selection is a key issue in Mobile Crowd Sensin...
Mobile crowd-sensing (MCS) is a well-known paradigm used for obtaining sensed data by using sensors ...
This paper first defines a novel spatial-temporal coverage metric, k-depth coverage, for mobile crow...
Task allocation is a key problem in Mobile Crowd Sensing (MCS). Prior works have mainly assumed that...
Abstract—Heterogeneous sensor networks are increasingly de-ployed to support users in the field requ...
The IoT era observes the increasing demand for data to support various applications and services. Th...
Participatory sensing is a paradigm through which mobile device users (or participants) collect and ...
Piggyback crowdsensing (PCS) is a novel energy- efficient mobile crowdsensing paradigm that reduces ...
For participatory sensing, task allocation is a crucial research problem that embodies a tradeoff be...
This paper proposes a novel task allocation framework, PSTasker, for participatory sensing (PS), whi...
Task allocation is a fundamental research issue in mobile crowd sensing. While earlier research focu...
This paper proposes a novel multi-task allocation framework, named PSAllocator, for participatory se...
In Mobile Crowd Sensing (MCS), task assignment and user selection to minimize the total incentive co...
International audienceParticipatory Sensing is a new paradigm of mobile sensing where users are acti...
In a practical Mobile Crowd Sensing (MCS) system, there usually exist multiple heterogeneous MCS tas...
International audienceTask allocation or participant selection is a key issue in Mobile Crowd Sensin...
Mobile crowd-sensing (MCS) is a well-known paradigm used for obtaining sensed data by using sensors ...
This paper first defines a novel spatial-temporal coverage metric, k-depth coverage, for mobile crow...
Task allocation is a key problem in Mobile Crowd Sensing (MCS). Prior works have mainly assumed that...
Abstract—Heterogeneous sensor networks are increasingly de-ployed to support users in the field requ...
The IoT era observes the increasing demand for data to support various applications and services. Th...
Participatory sensing is a paradigm through which mobile device users (or participants) collect and ...
Piggyback crowdsensing (PCS) is a novel energy- efficient mobile crowdsensing paradigm that reduces ...