International audienceThe development of Machine-Type Communication (MTC) in the Long Term Evolution (LTE) standard can lead to an overuse of the Physical Random Access Channel (PRACH). An efficient way to avoid it consists in reducing the number of requests done by end-devices. In this paper, we first study the probability of collision in a congested LTE-MTC network. As a second step, we analyze the latency in the network as a function of the request access rate. Then, we propose a closed-form for a sub-optimal request access rate. We finally conduct numerical simulations in order to assess the performance of the proposed approximation
Simultaneous random access attempts from massive machine-type communications (mMTC) devices may seve...
A canonical scenario in Machine-Type Communications (MTC) is the one featuring a large number of dev...
Abstract—LTE-Advanced networks employ random access based on preambles transmitted according to mult...
International audienceThe development of Machine-Type Communication (MTC) in the Long Term Evolution...
Machine-type communication (MTC) is a new service defined by the 3rd Generation Partnership Project ...
Machine type communications is seen as a form of data communication, among devices and/or from devic...
Machine Type Communication (MTC) is the automatic exchange of information through a network, includi...
When incorporating machine-to-machine (M2M) communications into the Third Generation Partnership Pro...
One of the main problems in LTE networks is distribution of a limited number of radio resources amon...
Abstract: In this paper, we present a discussion on the congestion control for machine type communi...
Machine type communication (MTC) is the key solution to the information exchange between devices. It...
Providing the evolution from current wireless systems to fifth generation (5G) network is to support...
When machine-type communication (MTC) devices perform the long-term evolution (LTE) attach procedure...
In recent years, Machine-Type Communications (MTC) has become one of the most attractive technologie...
In a long term evolution‐advanced (LTE‐A) system, the traffic overload of machine type communication...
Simultaneous random access attempts from massive machine-type communications (mMTC) devices may seve...
A canonical scenario in Machine-Type Communications (MTC) is the one featuring a large number of dev...
Abstract—LTE-Advanced networks employ random access based on preambles transmitted according to mult...
International audienceThe development of Machine-Type Communication (MTC) in the Long Term Evolution...
Machine-type communication (MTC) is a new service defined by the 3rd Generation Partnership Project ...
Machine type communications is seen as a form of data communication, among devices and/or from devic...
Machine Type Communication (MTC) is the automatic exchange of information through a network, includi...
When incorporating machine-to-machine (M2M) communications into the Third Generation Partnership Pro...
One of the main problems in LTE networks is distribution of a limited number of radio resources amon...
Abstract: In this paper, we present a discussion on the congestion control for machine type communi...
Machine type communication (MTC) is the key solution to the information exchange between devices. It...
Providing the evolution from current wireless systems to fifth generation (5G) network is to support...
When machine-type communication (MTC) devices perform the long-term evolution (LTE) attach procedure...
In recent years, Machine-Type Communications (MTC) has become one of the most attractive technologie...
In a long term evolution‐advanced (LTE‐A) system, the traffic overload of machine type communication...
Simultaneous random access attempts from massive machine-type communications (mMTC) devices may seve...
A canonical scenario in Machine-Type Communications (MTC) is the one featuring a large number of dev...
Abstract—LTE-Advanced networks employ random access based on preambles transmitted according to mult...