User:Wonhol
From Robin
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Result after modifying the reward function: [[Fil:dyret_side_walk.gif]] | Result after modifying the reward function: [[Fil:dyret_side_walk.gif]] | ||
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+ | **Note** All the parameter for HyperNEAT has been same so far, including substrates | ||
I should probably give a dedicated reward for forward motion. | I should probably give a dedicated reward for forward motion. | ||
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+ | ==== Dockerfile Generation ==== | ||
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+ | [[https://towardsdatascience.com/build-a-docker-container-with-your-machine-learning-model-3cf906f5e07e]] | ||
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+ | This link shows how ML dev env can be set up in Docker | ||
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+ | list of things to be installed | ||
+ | |||
+ | * OpenAI gym | ||
+ | * usual scientific python packages - numpy, scipy ... | ||
+ | * dyret gym env - pull from git repo | ||
+ | * MultiNEAT - pull and compile from git | ||
+ | * boost lib for MultiNEAT - this will have bunch of dependancies of its own | ||
Revision as of 07:11, 11 October 2019
Contents |
Goals
We are taking the start point from the paper from Risi,
Risi - Evolving flexible controller for locomotion
where locomotive controller for variable length legges were evolved with HyperNEAT approach.
The goal is to implement it on DyRet platform - where it has two actuator for each legges. Also other thing to consider will be taking account of Tegotae - where touch input is used as some kind of feedback to CPG. Risi had touch sensor as input to his substrate in the simulation.
Other aspect of it is to see if HyperNEAT approach is something plausible considering its complexity - some skeptical veiw on HyperNEAT. ie) simple CTRNN network with length of leg as one of the input.
Some of the tasks that could be done over the summer are
* Read through DyRet doucumentation from robin wiki & github and set up a simulator enviorment * Theoretical understanding of Tegotae - is it plausible to embed it with CTRNN-substrate? * Experimenting with HyperNEAT libraries - Kyrre`s recommendation is "C++/Python MultiNEAT C++ with Python binding", otherwise Risi seems to
work with C# implementation -> perhaps it is a good idea to have a look.
OpenAI Gym Env for DyRET
https://github.uio.no/jorgehn/gym-dyret
HyperNEAT libraries
TODO
Plan for Fall semester
2019 September October November December Su 1 8 15 22 29 6 13 20 27 3 10 17 24 1 8 15 22 29 Mo 2 9 16 23 30 7 14 21 28 4 11 18 25 2 9 16 23 30 Tu 3 10 17 24 1 8 15 22 29 5 12 19 26 3 10 17 24 31 We 4 11 18 25 2 9 16 23 30 6 13 20 27 4 11 18 25 Th 5 12 19 26 3 10 17 24 31 7 14 21 28 5 12 19 26 Fr 6 13 20 27 4 11 18 25 1 8 15 22 29 6 13 20 27 Sa 7 14 21 28 5 12 19 26 2 9 16 23 30 7 14 21 28 35 36 37 38 39 39 40 41 42 43 43 44 45 46 47 48 49 50 51 52
Remarks
Delivery in May 2020 Mid-term presentation in week 49
Week 36
OpenAI gym setup for DyRET
Get used to DyRET Env
- input param for step : 12 np vector for joints, 8 for extension
HyperNEAT libraries
Lists of some promising ones
- https://github.com/ukuleleplayer/pureples
- Pure python-based HyperNEAT, ES-HyperNEAT library, based on neat-python library
- Installed and provided example experiments runs fine
- https://github.com/peter-ch/MultiNEAT
- MultiNEAT, implemented in C++ with python bindings
- good review from Stanley's website
- https://gist.github.com/stefanopalmieri This guy has some nice examples
binding multineat and gym env
- installation
- install boost, first bootstrap with python version 3.6 then build
- git clone multineat then
- installation
$ export MN_BUILD=boost $ python3 setup.py build_ext $ python3 setup.py install
- in case it casts missing library link to python and numpy, make sure to
install boost with python specified and numpy is installed properly for the user
- if the user installing multineat has no access to write to install destination, try via venv.
- once installed, test by
>>> import MultiNEAT
- in case it casts missing library error, explicitly set $LD_LIBRARY_PATH for
boost install location, by default
$ export LD_LIBRARY_PATH=/usr/local/lib
Week 37
OpenAI gym setup
- Running basic examples to get familier with OpenAI Gym concepts - observation space, action space
https://towardsdatascience.com/reinforcement-learning-with-openai-d445c2c687d2
HyperNEAT library test
- MultiNEAT example running successfully with installation
- Was able to run example from https://gist.github.com/stefanopalmieri
- Those examples are from old openai gym code, it needs appropriate fix
- wasn't able to create ES hyperneat object - Genome class doesn't have it!? -
commented out in source code
by this point, familir with hyperNEAT packages and chosen one for the project
OpenAI gym env setup for various experiments
Week 38
Weekly goals
- Find out how to implement CTRNN cell for HyperNEAT
- Design control scheme for OpenAI gym DyRET using one of the HyperNEAT packages
- Understand evolution pipeline in HyperNEAT packages together with OpenAI Gym env.
- Document how to set up dev. environment - installation of openai, hyperneat
packages for the larger experiment jobs later on.
Progress
- MultiNEAT has leaky integrators implemented. Following function for
NeuralNetwork obj. Also parameter for time constants should be set up
void ActivateLeaky(double step); // activates in leaky integrator mode
- Substrate can also be defined to made of Leaky neurons by
Substrate.m_leaky = True
- Evolution pipeline in MultiNEAT
- Define parameters - for CTRNN, define timeconstants
- Define substrates
- Initialize Genome with intput, hidden, output
- Init population
- evaluate each indivisual from pop with interacting with openAI Gym env.
- pop.Epoch()
- To build HyperNEAT genome, specify by function Genome::BuildHyperNEATPheonotype() when making network
- Each of risi's neuron has 4d coordinate, (xm, ym, x, y) where xm, and ym is substrate containing sub-substrates, this can be simply set up as 4d substrate when setting up in MultiNEAT
What to look closely next
- How to set up input for CPPN in MultiNEAT - considering leg length??
- Need to look into docker tutorial
Week 39
Weekly Goals
- Find out how to customize CPPN in MultiNEAT - Risi has extra input parameter for leg length
- Document setting up dev. env process
- Look into Docker generation
- Try simple HyperNEAT on DyRET env. - doesn't have to take account on leg length
Progress
= Simple HyperNEAT on DyRET environment
- what is input for Risi's network??
- Current angle of hip joints
- output
- axis of rotation for each joint scaled to DOF of each joint. proportional
controller applies torque to bridge the disparity between current and requested angle
- MultiNEAT throws error when 4d substrate is given.
- Will need to hack MultiNEAT for 4d substrate support, perhaps it's good idea considering lack of support for custom CPPN * Fitness function need to re-adapt dyret-env's reward
- highest reward for doing nothing but standing still
- Fully connected substrate of 4 inputs 8 hidden layer and 12 output doesn't seem to do the job well with current fitness function - extra reward based on
final y axis position * 1e5
- At start the best genome usually falls towards positive y axis direction
Experiment result
- Setup
- population 128
- 20 generations
- 2D fully connected substrate with 4 input 8 hidden 12 output
- input are 4 position of hip joints
- output are used directly as next position of each joint
- base reward from dyret walking env with half on healty and double speed on y axis + final distance on y axis
- details at ~/workspace/code/dyret_hyperneat1.py
- some periodic movement on some joint observed
- kinda like galloping and failing miserably
Week 40/41
Experiment setup Implementing Risi's HyperNEAT on Dyret
Save/load for genomes
Simply applying pickle to genome, substrate and paramters to see how the best genome behaves after training
- Currently saving only the best fitting genome as pickling with it's fitness value
- viewer script written to re-enact each genome to see how they behave
- it need to be parameterized for more general usage
Custom CPPN in MultiNEAT
- Temporary neural network is initialized in the BuildHyperNEATPhenotype(). If we want to modifiy CPPN here it should be done.
- modifying this part of code indicates that I need to recompile the MultiNEAT. how is this going to work?
- Reading through genome.cpp indicates that 4D substrate is supported - line 1183 genome.cpp
- Why is it not working with 4d substrate? is it perhaps not connected propery?
Sliding behaviour in Dyret
- After some trial run with the same initial setup in HyperNEAT, a population evolved a sliding behaviour, using only two back legs to slide off ground.
- Discussion with Joergen revealed that it has to do with the fact that the dyret env package only explicitly sets friction value on its feet -> possibly no friction value set on other parts of body or very little friction.
- Joergen suggests as solution
- collision detection - check if other parts of body is touching the floor
- for example on this check out observation function in abstract env class
- constraints on body angle, such that huge negative reward is given if pitch and roll is over certain degrees.
- collision detection - check if other parts of body is touching the floor
update
Fil:dyret_crawling_slow_mo.gif
Setting simulation timestep up, from default 1/240 to 0.1 reveals that dyret isn't actually sliding, but crawing really low. However this revealed some problems 1. Colliding leg 2. changing timestep of simulator did not affect the behaviour of the robot. This is strange given that I am suppose to be using CTRNN with certain timestep at 0.01.
Re-defined reward for upright
for x and y axis, being upright returns 0 for position.
- Send x and y into normal PDF with sigma = 0.2. -> output around 0 for 45 degree
- Normalize the max value to 1
- Map value to -1 to 1
- Sum x and y output then multiply by 100
This winds up giving 100 reward if upright and negative for more than 45 degree rotation
Result after modifying the reward function: Fil:dyret_side_walk.gif
- Note** All the parameter for HyperNEAT has been same so far, including substrates
I should probably give a dedicated reward for forward motion.
Dockerfile Generation
[[1]]
This link shows how ML dev env can be set up in Docker
list of things to be installed
- OpenAI gym
- usual scientific python packages - numpy, scipy ...
- dyret gym env - pull from git repo
- MultiNEAT - pull and compile from git
- boost lib for MultiNEAT - this will have bunch of dependancies of its own
Week 42
Experiment setup Implementing CPG style locomotive controller on Dyret
Week 43
Experiment setup Implementing CPG style locomotive controller on Dyret
Week 44
Experiment run
Week 45
Experiment run
Week 46
Experiment run
Week 47
Experiment analysis
Week 48
Experiment analysis
Week 49
Presenting first results