<p>It is assumed that an individual essentially lives a well-regulated daily life consisting of active and inactive time intervals. To reproduce the oscillating behavior of IET distribution within the framework of the queueing model, we construct an <i>ad hoc</i> time domain in which separated active time intervals are connected by removing inactive time intervals between them. See text for details.</p
In this article, we model an interrupted service scheme that has applications in practice using phas...
Almost all organisms show some kind of time periodicity in their behavior. In mammals, the neurons o...
We present a novel technique to identify calendar-based (annual, monthly and daily) periodicities of...
Recent studies for a wide range of human activities such as email communication, Web browsing, and l...
Recent studies for a wide range of human activities such as email communication, Web browsing, and l...
are introduced that interact with each other to simulate the observed phenomenon without specificall...
In our attempts to understand the circadian system, we unavoidably rely on abstractions. Instead of ...
In our attempts to understand the circadian system, we unavoidably rely on abstractions. Instead of ...
This paper is motivated by applications in oscillatory systems where researchers are typically inter...
pasi.karhu @ helsinki.fi A recurrent oscillatory self-organizing map (ROSOM) introduced. This is an ...
Abstract: Some recent papers proposed to distinguish between event-based and emergent timing. Event-...
The problems arising when the moments of service time distributions, for which the M|G|? queue syste...
Wearable computing devices allow collection of densely sampled real-time information on movement ena...
<p>Time periods of oscillation, <i>T</i> (in sec) at two different values of </p><p></p><p></p><p><m...
In queueing theory, most models are based on time-homogeneous arrival processes and service time dis...
In this article, we model an interrupted service scheme that has applications in practice using phas...
Almost all organisms show some kind of time periodicity in their behavior. In mammals, the neurons o...
We present a novel technique to identify calendar-based (annual, monthly and daily) periodicities of...
Recent studies for a wide range of human activities such as email communication, Web browsing, and l...
Recent studies for a wide range of human activities such as email communication, Web browsing, and l...
are introduced that interact with each other to simulate the observed phenomenon without specificall...
In our attempts to understand the circadian system, we unavoidably rely on abstractions. Instead of ...
In our attempts to understand the circadian system, we unavoidably rely on abstractions. Instead of ...
This paper is motivated by applications in oscillatory systems where researchers are typically inter...
pasi.karhu @ helsinki.fi A recurrent oscillatory self-organizing map (ROSOM) introduced. This is an ...
Abstract: Some recent papers proposed to distinguish between event-based and emergent timing. Event-...
The problems arising when the moments of service time distributions, for which the M|G|? queue syste...
Wearable computing devices allow collection of densely sampled real-time information on movement ena...
<p>Time periods of oscillation, <i>T</i> (in sec) at two different values of </p><p></p><p></p><p><m...
In queueing theory, most models are based on time-homogeneous arrival processes and service time dis...
In this article, we model an interrupted service scheme that has applications in practice using phas...
Almost all organisms show some kind of time periodicity in their behavior. In mammals, the neurons o...
We present a novel technique to identify calendar-based (annual, monthly and daily) periodicities of...