In this paper, we present an accurate and realistic simulation for body area networks (BAN) and body-to-body networks (BBN) using deterministic and semi-deterministic approaches. First, in the semi-deterministic approach, a real-time measurement campaign is performed, which is further characterized through statistical analysis. It is able to generate link-correlated and time-varying realistic traces (i.e., with consistent mobility patterns) for on-body and body-to-body shadowing and fading, including body orientations and rotations, by means of stochastic channel models. The full deterministic approach is particularly targeted to enhance IEEE 802.15.6 proposed channel models by introducing space and time variations (i.e., dynamic distances)...
Simulation is a useful and common technique to evaluate the performance of networks when the impleme...
Abstract—In wireless body area networks, on-body radio propagation channels are typically time-varyi...
Mobility models play a vital role on the accuracy of simulations in Wireless Body Area Networks (WBA...
In this paper, we present an accurate and realistic simulation for body area networks (BAN) and body...
The advancements in technology have made it possible to create a network of implant and wearable nod...
[eng] In this thesis, Wireless Body Area Networks channel modeling is studied and analyzed. This th...
Reliable on-body wireless network design needs to incorporate the natural body movements. However, e...
none4siThis paper presents a novel approach for modelling the influence of body dynamics on the radi...
Many current and future wireless devices are wearable and use the human body as a carrier. This has ...
This paper presents a stochastic modeling framework for store-and-forward packet routing in Wireless...
A body area network (BAN) is a network of bodyworn or implanted electronic devices, including wirele...
The human body is an extremely challenging environment for the operation of wireless communications ...
A novel dynamic channel model for on-body wireless communication during walking is proposed. The dev...
Wireless body area network (WBAN) technology shows potential for improving human quality of life by ...
Body-to-body wireless networks (BBWNs) have great potential to find applications in team sports acti...
Simulation is a useful and common technique to evaluate the performance of networks when the impleme...
Abstract—In wireless body area networks, on-body radio propagation channels are typically time-varyi...
Mobility models play a vital role on the accuracy of simulations in Wireless Body Area Networks (WBA...
In this paper, we present an accurate and realistic simulation for body area networks (BAN) and body...
The advancements in technology have made it possible to create a network of implant and wearable nod...
[eng] In this thesis, Wireless Body Area Networks channel modeling is studied and analyzed. This th...
Reliable on-body wireless network design needs to incorporate the natural body movements. However, e...
none4siThis paper presents a novel approach for modelling the influence of body dynamics on the radi...
Many current and future wireless devices are wearable and use the human body as a carrier. This has ...
This paper presents a stochastic modeling framework for store-and-forward packet routing in Wireless...
A body area network (BAN) is a network of bodyworn or implanted electronic devices, including wirele...
The human body is an extremely challenging environment for the operation of wireless communications ...
A novel dynamic channel model for on-body wireless communication during walking is proposed. The dev...
Wireless body area network (WBAN) technology shows potential for improving human quality of life by ...
Body-to-body wireless networks (BBWNs) have great potential to find applications in team sports acti...
Simulation is a useful and common technique to evaluate the performance of networks when the impleme...
Abstract—In wireless body area networks, on-body radio propagation channels are typically time-varyi...
Mobility models play a vital role on the accuracy of simulations in Wireless Body Area Networks (WBA...