P I Johannesma
Overview
Explore the profile of P I Johannesma including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
18
Citations
318
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Hesselmans G, Johannesma P
Math Biosci
. 1989 Mar;
93(1):31-51.
PMID: 2520023
Sensory receptors transform an external sensory stimulus into an internal neural activity pattern. This mapping is studied through its inverse. An earlier paper showed that within the context of a...
2.
van Stokkum I, Johannesma P, Eggermont J
Biol Cybern
. 1986 Jan;
55(1):17-24.
PMID: 3492221
Correlation functions based on time averaging are not suited to study non-stationary point processes (e.g. the electric organ discharge activity of weakly-electric pulse fish). To overcome this problem, we present...
3.
Aertsen A, Vlaming M, Eggermont J, Johannesma P
Hear Res
. 1986 Jan;
21(1):17-40.
PMID: 3485627
In an earlier paper (Vlaming et al., 1984) we reported on optical measurements (laser-doppler interferometry) of the vibrations characteristics of the grassfrog's tympanic membrane. In the present paper these measurements...
4.
van den Boogaard H, Johannesma P
IMA J Math Appl Med Biol
. 1984 Jan;
1(4):365-89.
PMID: 6600110
Based on neural interaction equations a random walk model for the stochastic dynamics of a single neuron is introduced. In this model the somatic potential corresponds to a state in...
5.
Eggermont J, Aertsen A, Johannesma P
Hear Res
. 1983 May;
10(2):191-202.
PMID: 6602800
The spectro-temporal receptive field (STRF) of an auditory neuron represents those characteristics of the sound stimulus in both the time and frequency domain that affect the firing probability of the...
6.
Eggermont J, Aertsen A, Johannesma P
Hear Res
. 1983 May;
10(2):167-90.
PMID: 6602799
Studies dealing with auditory information processing often present the dynamic spectrum of the sound stimulus (sonogram) in addition to the stimulus waveform. The sonogram, presenting the spectral and temporal properties...
7.
Hermes D, Eggermont J, Aertsen A, Johannesma P
Hear Res
. 1982 Jan;
6(1):103-26.
PMID: 6976343
Responses were obtained from 112 auditory neurons in the midbrain of the grass frog in response to sequences of tones. Their spectro-temporal sensitivities (STS) were determined by a second-order cross-correlation...
8.
Hermes D, Aertsen A, Johannesma P, Eggermont J
Hear Res
. 1981 Nov;
5(2-3):147-78.
PMID: 6975772
About 30% of the auditory units in the midbrain of the lightly anaesthetised grass frog respond in a sustained way to stationary pseudorandom noise. This response is described by the...
9.
Eggermont J, Aertsen A, Hermes D, Johannesma P
Hear Res
. 1981 Sep;
5(1):109-21.
PMID: 6976342
For neurons in the auditory midbrain of the grass frog the use of a combined spectro-temporal characterization has been evaluated against the separate characterizations of frequency-sensitivity and temporal response properties....
10.
Aertsen A, Johannesma P
Biol Cybern
. 1981 Jan;
42(2):133-43.
PMID: 7326288
The Spectro-Temporal Receptive Field (STRF) of an auditory neuron has been introduced experimentally on the base of the average spectro-temporal structure of the acoustic stimuli which precede the occurrence of...