Throughput improvements for FHMA wireless data networks employing variable rate channel coding

Park, Andrew S.

02 February 2010

Master of Science

frequency hopping

FHMA

variable rate coding

channel coding

LD5655.V851 1996.P375

Characterization of the Purkinje cell to nuclear cell connections in mice cerebellum / Caractérisation des connexions cellules de Purkinje-cellule des noyaux profonds dans le cervelet de souris

Özcan, Orçun Orkan

20 March 2017

Le cervelet permet l’apprentissage moteur et la coordination des mouvements fins. Pour ce faire, il intègre les informations sensorielles provenant de l’ensemble du corps ainsi que les commandes motrices émises par d’autres structures du système nerveux central. Les noyaux cérébelleux profonds (DCN) constituent la sortie du cervelet et intègre les informations provenant des cellules de Purkinje (PC), des fibres moussues et des fibres grimpantes. Nous avons étudié les connexions fonctionnelles entres les PC et les DNC in vivo, grâce à une stimulation optogénétique des lobules IV/V du cortex cérébelleux et à l’enregistrement multi unitaire du noyau médian. Nous avons ainsi identifié deux groupes de cellules au sein des DCN, présentant des caractéristiques propres au niveau de leur fréquence de décharge et de la forme des potentiels d’action, en accord avec la dichotomie établie par une précédente étude in vitro permettant de séparer les neurones GABAergiques des autres neurones. Nos résultats suggèrent que les PC contrôlent la sotie du cervelet d’un point de vue temporel. De plus, la ciruiterie interne des DCN conforte ce résultat de part le fait que les cellules GABAergiques ne produisent pas d’effet temporel au travers de l’inhibition locale. / The cerebellum integrates motor commands with somatosensory, vestibular, visual and auditory information for motor learning and coordination functions. The deep cerebellar nuclei (DCN) generates the final output by processing inputs from Purkinje cells (PC), mossy and climbing fibers. We investigated the properties of PC connections to DCN cells using optogenetic stimulation in L7-ChR2 mice with in vivo multi electrode extracellular recordings in lobule IV/V of the cerebellar cortex and in the medial nuclei. DCN cells discharged phase locked to local field potentials in the beta, gamma and high frequency bands. We identified two groups of DCN cells with significant differences in action potential waveforms and firing rates, matching previously discriminated in vitro properties of GABAergic and non-GABAergic cells. PCs inhibited the two group of cells gradually (rate coding), however spike times were controlled for only non-GABAergic cells. Our results suggest that PC inputs temporally control the output of cerebellum and the internal DCN circuitry supports this phenomenon since GABAergic cells do not induce a temporal effect through local inhibition.

Cervelet

Optogénétique

Noyaux cérébelleux profonds

Cellules de Purkinje

Inhibition locale

Inter neurones GABAergiques

Cellules de projection glutamatergiques

Électrophysiologie in vivo

Codage temporel

Codage de fréquence

Souris transgénique L7-ChR2

Cerebellum

Optogenetic stimulation

Deep cerebellar nuclei

Purkinje cells

Local inhibition

GABAergic interneurons

Glutamatergic projection cells

In vivo electrophysiology

Temporal coding

Rate coding

L7-ChR2 mice

573.8

Performance evaluation and protocol design of fixed-rate and rateless coded relaying networks

Nikjah, Reza

06 1900

The importance of cooperative relaying communication in substituting for, or complementing, multiantenna systems is described, and a brief literature review is presented. Amplify-and-forward (AF) and decode-and-forward (DF) relaying are investigated and compared for a dual-hop relay channel. The optimal strategy, source and relay optimal power allocation, and maximum cooperative gain are determined for the relay channel. It is shown that while DF relaying is preferable to AF relaying for strong source-relay links, AF relaying leads to more gain for strong source-destination or relay-destination links. Superimposed and selection AF relaying are investigated for multirelay, dual-hop relaying. Selection AF relaying is shown to be globally strictly outage suboptimal. A necessary condition for the selection AF outage optimality, and an upper bound on the probability of this optimality are obtained. A near-optimal power allocation scheme is derived for superimposed AF relaying. The maximum instantaneous rates, outage probabilities, and average capacities of multirelay, dual-hop relaying schemes are obtained for superimposed, selection, and orthogonal DF relaying, each with parallel channel cooperation (PCC) or repetition-based cooperation (RC). It is observed that the PCC over RC gain can be as much as 4 dB for the outage probabilities and 8.5 dB for the average capacities. Increasing the number of relays deteriorates the capacity performance of orthogonal relaying, but improves the performances of the other schemes. The application of rateless codes to DF relaying networks is studied by investigating three single-relay protocols, one of which is new, and three novel, low complexity multirelay protocols for dual-hop networks. The maximum rate and minimum energy per bit and per symbol are derived for the single-relay protocols under a peak power and an average power constraint. The long-term average rate and energy per bit, and relay-to-source usage ratio (RSUR), a new performance measure, are evaluated for the single-relay and multirelay protocols. The new single-relay protocol is the most energy efficient single-relay scheme in most cases. All the multirelay protocols exhibit near-optimal rate performances, but are vastly different in the RSUR. Several future research directions for fixed-rate and rateless coded cooperative systems, and frameworks for comparing these systems, are suggested. / Communications

acknowledgment signals

amplify-and-forward relaying

average capacity

average power constraint

bit error rate

cooperative gain

cooperative communication

decode-and-forward relaying

degree of freedom

direct transmission

distributed space-time coding

dual-hop relaying

energy efficiency

energy per bit

energy per symbol

feedback communication

fixed-rate coded relaying

fixed-rate codes

fixed-rate coding

large SNR approximation

maximal ratio combining

maximum achievable rates

maximum likelihood

multiple access channels

mutual information

nonconcave fractional programming

numerical optimization

optimal power allocation

orthogonal relaying

outage optimality

outage probability

parallel channel coding

peak power constraint

power allocation schemes

power fairness

protocol design

rateless coded relaying

rateless codes

rate efficiency

rateless coding

Rayleigh fading

relay-to-source usage ratio

relaying networks

repetition coding

selection relaying

single-hop communication

superimposed relaying

symbol error rate

Performance evaluation and protocol design of fixed-rate and rateless coded relaying networks

Nikjah, Reza

Unknown Date

No description available.

acknowledgment signals

amplify-and-forward relaying

average capacity

average power constraint

bit error rate

cooperative gain

cooperative communication

decode-and-forward relaying

degree of freedom

direct transmission

distributed space-time coding

dual-hop relaying

energy efficiency

energy per bit

energy per symbol

feedback communication

fixed-rate coded relaying

fixed-rate codes

fixed-rate coding

large SNR approximation

maximal ratio combining

maximum achievable rates

maximum likelihood

multiple access channels

mutual information

nonconcave fractional programming

numerical optimization

optimal power allocation

orthogonal relaying

outage optimality

outage probability

parallel channel coding

peak power constraint

power allocation schemes

power fairness

protocol design

rateless coded relaying

rateless codes

rate efficiency

rateless coding

Rayleigh fading

relay-to-source usage ratio

relaying networks

repetition coding

selection relaying

single-hop communication

superimposed relaying

symbol error rate