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Receptivity synchronous

Figure 1, Forcing functions for monomer (fu) and initiator (fi) feeds (a) sinusoidal (b) square-wave (c) reception vessel valve operating sequences which are synchronized with the feed policies (see Figure 2 for the location of the valves... Figure 1, Forcing functions for monomer (fu) and initiator (fi) feeds (a) sinusoidal (b) square-wave (c) reception vessel valve operating sequences which are synchronized with the feed policies (see Figure 2 for the location of the valves...
Paria, B. C., Wang, H., and Dey, S. K. (2002). Endocannabinoid signaling in synchronizing embryo development and uterine receptivity for implantation. Chem. Phys. lipids 121, 201—210. [Pg.132]

Figure 9. On the left and the right, the value of g corresponds to the reception of one and three LN spikes, respectively. As expected, firing times T increase with g. However, the standard deviation of T decreases with g and thus PN synchronization is tighter when the inhibition is stronger (see also Figure 10). In Figure 9 are also indicated, as if the input current was constant over time, the instantaneous resting and threshold states of the neuron when the total current is negative (or subthreshold) we can see that the neuron, when it is inhibited, tends to remain close and under the resting state. Figure 9. On the left and the right, the value of g corresponds to the reception of one and three LN spikes, respectively. As expected, firing times T increase with g. However, the standard deviation of T decreases with g and thus PN synchronization is tighter when the inhibition is stronger (see also Figure 10). In Figure 9 are also indicated, as if the input current was constant over time, the instantaneous resting and threshold states of the neuron when the total current is negative (or subthreshold) we can see that the neuron, when it is inhibited, tends to remain close and under the resting state.
Hormones transmit information from one body site to another. Transported in the bloodstream, the hormone secreted by an endocrine gland will activate biochemical processes in various "target" cells in the body that have specific reception for that hormone. Practically all hormonal secretions exhibit circadian rhythms [8], Consequently, the plasma concentration of a hormone has a peak at a characteristic time of day and a trough at another. The circadian timing system uses circadian rhythms in plasma hormone levels to transmit temporal information and ensure the internal synchronization of the multitude of rhythmic functions in various body tissues. Several researchers have shown that aberrations in circadian rhythm timing of hormones can be viewed as a biological dy sfunction[9,10,11 ]. [Pg.353]

Another distinction to be made regarding communication is that between the synchronous exchange of knowledge, where partners can communicate at the same time, and the asynchronous exchange, where the transmission and the reception of the message do not happen simultaneously, such as the sending of documents via e-mail. [Pg.1292]

Moss, 1989 Sukumar, 1989 Dublin, 1996). Furthermore, females are not necessarily synchronous in their timing of ovulation. Hence, at any one time there is a relatively small pool of receptive females over which males compete vigorously. [Pg.385]

The prostaglandins found in plants and lower animals may have an ecological function in repelling predators (E 5.5.3). In medicine prostaglandins are used to interrupt pregnancy, initiate delivery, and to synchronize sexual receptivity in animals (F 2).. [Pg.170]

FoUowing an approach similar to [4] the authors of RI-EDF [8] synchronize slots based on the reception time instants of the transmission of other nodes in a distributed fashion. However, the protocol was not developed to cope with uncontrolled noncomplying traffic in the channel. [Pg.73]

Moreover, this technique also carries along a further benefit since each node now synchronizes with the others in the team by measuring the reception instants of the respective packets and thus clock synchronization is no longer needed. [Pg.74]

The consecutive munber is used as a measure to deal with some of the possible communication errors, illustrated in Tab. 2. It is also used to monitor the propagation delay between transmission and reception. A 24 bit counter is used for consecutive numbering, thus the consecutive number counts in a cyclic mode from 1... FF FF FFh wrapping over to 1 at the end [6]. The consecutive number 0 is reserved for error conditions and synchronization of the VCNs. [Pg.73]

Stmctural-monitoring installations are usually done under cover, and additional weather protection is not required, but the instmment may have to be protected from human activity or other disturbances. Normally a pier is not required, since the sensor may be anchored directly to a stmctural element. GPS reception for time synchronism may be a problem if the station is far from the open sky (e.g., in a dam gallery), but there exist technical solutions e.g., a GPS receiver may be outside, and the signal is repeated the accelerograph may be... [Pg.2518]

See other pages where Receptivity synchronous is mentioned: [Pg.205]    [Pg.284]    [Pg.285]    [Pg.287]    [Pg.710]    [Pg.722]    [Pg.141]    [Pg.403]    [Pg.236]    [Pg.142]    [Pg.232]    [Pg.236]    [Pg.491]    [Pg.1292]    [Pg.22]    [Pg.60]    [Pg.1874]    [Pg.69]    [Pg.204]    [Pg.274]   
See also in sourсe #XX -- [ Pg.491 ]



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Synchronicity

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Synchronous

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