Friday, 17th August - Res. seminar - Interspecific communication Flashcards Preview

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1
Q

Interspecific Communication & Learning

Human-dog communication & learning – why are we interested?

First domesticated animal

– Interest in studying this from a comparative and evolutionary perspective.

Useful

– Farming, protection.

– Assistance.

– Scent detection (conservation, border security, explosives, etc.).

In ~30% of NZ households

– Pervasive in communities.

• Animal welfare

– Association between training and behaviour complaints.

A
2
Q

Interspecific Communication

Communication is crucial for interspecific interactions, training.

Background on research on interspecific communication:

• Pointing signals, attentional cues, verbal signals, dog-given signals.

A
3
Q

Interspecific Communication

Pointing is a frequently-tested signal.

Two-way object choice tests.

– Human signaller stands in between two items (e.g., bowls).

  • Food hidden in one item.

– Dog faces person.

  • Person signals towards one bowl.

– Dog’s response is recorded, reinforced for correct choice.

A
4
Q

Question

Consider dogs and their natural behaviour, How might their natural behaviours limit the truth of the ‘point’ research.

A

Dogs have an excelent olfactory system. Having some hidden food in the bottom of the bowl, They may just be using their olfactory system to go for the bowl with the treat under it apposed to going to it because someone pointed at it.

5
Q

Not all dogs respond to these pointing signals.

Exercise: what are your predictions here?

Who will respond to these human-given signals better/worse?

• ‘Ordinary’ domestic dogs vs. New Guinea singing dogs (Wobber, 2009).

A

1st: ‘Cooperative dogs’
2nd: ‘Ordinary’

6
Q

Interspecific Communication

Phenotypic differences can also influence animals’ responses to pointing

Brachycephalic (‘short-nosed’) vs. dolichocephalic (‘long-nosed’) breeds (Gácsi et al., 2009).

– Both followed pointing signals better than by chance.

– Brachycephalic responded significantly better.

• Brachy were more attentive to human signaller.

– Distribution of retinal ganglion cells is more central in these dogs

(cf. dolicho.).

The pug (Brachyephalic) responded better

A
7
Q

Define these terms

1. Brachycephalic

2. Dolichocephalic

A

Brachycephalic (‘short-nosed’)

vs.

Dolichocephalic (‘long-nosed’)

8
Q

Interspecific Communication

Phenotypic differences can also influence animals’ responses to pointing

• Body size makes a difference.

– Larger (>22.7 kg) dogs perform better than smaller (<22.7 kg) dogs.

– Larger dogs have greater ‘inter-ocular’ distances, and thus depth perception.

A
9
Q

Interspecific Communication

Attentional cues (rather than true signals) can also be used by dogs.

Many species recognise and react to eyes.

– E.g., eye spots and anti-predator behaviour.

Social species may have communicative role.

– Perceiving attention cues of others may be important in predicting future behaviour.

A
10
Q

Interspecific Communication

Attentional cues (rather than true signals) can also be used by dogs.

  • Humans’ attentional states influences dogs’ behaviour (Call et al., 2003).
  • Dogs forbidden to eat food.

– Less likely to take it when a person was watching, compared to when the person was out of the room, turned their back, was distracted, or had their eyes closed.

A
11
Q
A

Causation

Physical differences/Differences in morphology

Ontogeny

Animals get some advantage out of it (perhaps reinforcement)

Function

?

Evolution

Atrificial selection. Different types of dog breeds.

12
Q

Interspecific Communication& Learning

  • Because dogs are so receptive to human communicative signals, they may play a role in more-effective training.
  • Relevant to Dog Learning Lab.

Three studies:

• Field study, experiment, training observations.

A

Positive reinforcement = ?

Unconditioned reinforcement = ?

Conditioned reinforcement = ?

13
Q

Interspecific Communication & Learning

Many variables affect reinforcer effectiveness

– timing (temporal contiguity).

Delays to reinforcement can result in trained behaviour.

E.g., pigeons and rats.

A

Interspecific Communication & Learning

Field observations

Aim was to examine how/when reinforcement is delivered.

  • Dog training clubs.

Times between training events measured via video analysis.

– Command > dog’s response > conditioned reinforcement > unconditioned reinforcement.

– Sit and down responses.

(44% of commands = no response)

(Only 53% of commands were responded to correctly)

– scope for improving efficacy.

  • Variability in delays to R+.

– Temporal contiguity is important

– therefore some suboptimal learning conditions.

14
Q

Interspecific Communication & Learning Experiment:

Aim was to examine the effects of experimentally delayed reinforcement when training dogs to perform a novel task.

Species-typical response is to investigate environment via olfaction.

– Task = putting their head inside yellow box.

A

Method in brief:

  • Visual communicative signals/cues obscured by screen.
  • Dogs trained to use a feeder.
  • Boxes smelled like dog food.
  • As dogs put head inside box, broke IR beam – connected to computer. Computer controlled R+ delivery.

– Conditioned R+ = beep.

– Unconditioned R+ = food treat.

• Three conditions:

A. 0 s delay (beep + food).

B. 1 s delay (beep + food).

C. 0 s to beep, 1 s delay to food.

Key Findings

15
Q
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16
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17
Q

Interspecific Communication & Learning

Key findings:

Body movements were delivered more quickly than intentional feedback.

– 75% trials = human body movements was the first feedback.

– Intentional feedback (e.g., verbal praise) was first in 21% of trials.

– Hand movements were the most frequent (82%) movement.

A
18
Q

Interspecific Communication & Learning Because owner-given movements were so rapid and consistent, they likely had a signalling function.

Question: what do you think their function may be?

A

A ‘Conditioned reinforcer’

The time gap between response and the intentional feeback, it is helping the dogs learn inparticularly given what we know about their communicative abilities.

19
Q

Scent Detection Research

Problem Introduced fish species having negative impacts on native species and aquatic ecosystems.

  • Current methods: electro-fishing, netting.
  • Detection dogs may be useful, cheaper.

Collaborative project between Schools of Science & Psychology, with Master’s students.

• Dogs are trained (R+) to indicate water that has contained koi carp.

– Ignore control water.

– Biologically significant dilutions. Introduce other fish species next.

A