260 lines
7 KiB
Markdown
260 lines
7 KiB
Markdown
<figure>
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<img src="assets/logo.png" alt="py-metric-temporal logic logo" width=300px>
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<figcaption>
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A library for manipulating and evaluating metric temporal logic.
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</figcaption>
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</figure>
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[](https://cloud.drone.io/mvcisback/py-metric-temporal-logic)
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[](https://codecov.io/gh/mvcisback/py-metric-temporal-logic)
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[](https://badge.fury.io/py/metric-temporal-logic)
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[](https://opensource.org/licenses/MIT)
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[](https://zenodo.org/badge/latestdoi/72686883)
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<!-- markdown-toc start - Don't edit this section. Run M-x markdown-toc-generate-toc again -->
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**Table of Contents**
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- [About](#about)
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- [Installation](#installation)
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- [Usage](#usage)
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- [Python Operator API](#python-operator-api)
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- [Propositional logic (using python syntax)](#propositional-logic-using-python-syntax)
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- [Modal Logic (using python syntax)](#modal-logic-using-python-syntax)
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- [String based API](#string-based-api)
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- [Propositional logic (parse api)](#propositional-logic-parse-api)
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- [Modal Logic (parser api)](#modal-logic-parser-api)
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- [Boolean Evaluation](#boolean-evaluation)
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- [Quantitative Evaluate (Signal Temporal Logic)](#quantitative-evaluate-signal-temporal-logic)
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- [Utilities](#utilities)
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- [Similar Projects](#similar-projects)
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- [Citing](#citing)
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<!-- markdown-toc end -->
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# About
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Python library for working with Metric Temporal Logic (MTL). Metric
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Temporal Logic is an extension of Linear Temporal Logic (LTL) for
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specifying properties over time series (See [Alur][1]). Some practical examples are
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given in the usage.
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# Installation
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If you just need to use `metric-temporal-logic`, you can just run:
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`$ pip install metric-temporal-logic`
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For developers, note that this project uses the
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[poetry](https://poetry.eustace.io/) python package/dependency
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management tool. Please familarize yourself with it and then
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run:
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`$ poetry install`
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# Usage
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To begin, we import `mtl`.
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```python
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import mtl
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```
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There are **two** APIs for interacting with the `mtl` module. Namely, one can specify the MTL expression using:
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1. [Python Operators](#python-operator-api).
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2. [Strings + The parse API](#string-based-api).
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We begin with the Python Operator API:
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## Python Operator API
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### Propositional logic (using python syntax)
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```python
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a, b = mtl.parse('a'), mtl.parse('b')
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phi0 = ~a
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phi1 = a & b
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phi2 = a | b
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phi3 = a ^ b
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phi4 = a.iff(b)
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phi5 = a.implies(b)
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```
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### Modal Logic (using python syntax)
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```python
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a, b = mtl.parse('a'), mtl.parse('b')
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# Eventually `a` will hold.
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phi1 = a.eventually()
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# `a & b` will always hold.
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phi2 = (a & b).always()
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# `a` until `b`
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phi3 = a.until()
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# `a` weak until `b`
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phi4 = a.weak_until(b)
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# Whenever `a` holds, then `b` holds in the next two time units.
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phi5 = (a.implies(b.eventually(lo=0, hi=2))).always()
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# We also support timed until.
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phi6 = a.timed_until(b, lo=0, hi=2)
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# `a` holds in two time steps.
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phi7 = a >> 2
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```
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## String based API
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### Propositional logic (parse api)
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```python
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# - Lowercase strings denote atomic predicates.
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phi0 = mtl.parse('atomicpred')
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# - infix operators need to be surrounded by parens.
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phi1 = mtl.parse('((a & b & c) | d | e)')
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phi2 = mtl.parse('(a -> b) & (~a -> c)')
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phi3 = mtl.parse('(a -> b -> c)')
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phi4 = mtl.parse('(a <-> b <-> c)')
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phi5 = mtl.parse('(x ^ y ^ z)')
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# - Unary operators (negation)
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phi6 = mtl.parse('~a')
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phi7 = mtl.parse('~(a)')
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```
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### Modal Logic (parser api)
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```python
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# Eventually `x` will hold.
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phi1 = mtl.parse('F x')
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# `x & y` will always hold.
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phi2 = mtl.parse('G(x & y)')
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# `x` holds until `y` holds.
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# Note that since `U` is binary, it requires parens.
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phi3 = mtl.parse('(x U y)')
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# Weak until (`y` never has to hold).
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phi4 = mtl.parse('(x W y)')
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# Whenever `x` holds, then `y` holds in the next two time units.
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phi5 = mtl.parse('G(x -> F[0, 2] y)')
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# We also support timed until.
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phi6 = mtl.parse('(a U[0, 2] b)')
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# Finally, if time is discretized, we also support the next operator.
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# Thus, LTL can also be modeled.
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# `a` holds in two time steps.
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phi7 = mtl.parse('XX a')
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```
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## Quantitative Evaluate (Signal Temporal Logic)
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Given a property `phi`, one can evaluate is a timeseries satisifies
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`phi`. Time Series can either be defined using a dictionary mapping
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atomic predicate names to lists of (`time`, `val`) pairs **or** using
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the [DiscreteSignals](https://github.com/mvcisback/DiscreteSignals)
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API (used internally).
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There are two types of evaluation. One uses the boolean semantics of
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MTL and the other uses Signal Temporal Logic like semantics.
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```python
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# Assumes piece wise constant interpolation.
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data = {
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'a': [(0, 100), (1, -1), (3, -2)],
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'b': [(0, 20), (0.2, 2), (4, -10)]
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}
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phi = mtl.parse('F(a | b)')
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print(phi(data))
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# output: 100
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# Evaluate at t=3
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print(phi(data, time=3))
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# output: 2
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# Evaluate with discrete time
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phi = mtl.parse('X b')
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print(phi(data, dt=0.2))
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# output: 2
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```
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## Boolean Evaluation
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To Boolean semantics can be thought of as a special case of the
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quantitative semantics where `True ↦ 1` and `False ↦ -1`. This
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conversion happens automatically using using the `quantitative=False`
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flag.
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```python
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# Assumes piece wise constant interpolation.
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data = {
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'a': [(0, True), (1, False), (3, False)],
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'b': [(0, False), (0.2, True), (4, False)]
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}
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phi = mtl.parse('F(a | b)')
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print(phi(data, quantitative=False))
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# output: True
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phi = mtl.parse('F(a | b)')
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print(phi(data))
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# output: True
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# Note, quantitative parameter defaults to False
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# Evaluate at t=3.
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print(phi(data, time=3, quantitative=False))
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# output: False
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# Compute sliding satisifaction.
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print(phi(data, time=None, quantitative=False))
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# output: [(0, True), (0.2, True), (4, False)]
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# Evaluate with discrete time
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phi = mtl.parse('X b')
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print(phi(data, dt=0.2, quantitative=False))
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# output: True
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```
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## Utilities
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```python
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import mtl
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from mtl import utils
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print(utils.scope(mtl.parse('XX a'), dt=0.1))
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# output: 0.2
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print(utils.discretize(mtl.parse('F[0, 0.2] a'), dt=0.1))
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# output: (a | X a | XX a)
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```
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# Similar Projects
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Feel free to open up a pull-request to add other similar projects. This library was written to meet some of my unique needs, for example I wanted the AST to be immutable and wanted the library to **just** handle manipulating MTL. Many other similar projects exist with different goals.
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1. https://github.com/doganulus/python-monitors
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1. https://github.com/STLInspector/STLInspector
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# Citing
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@misc{pyMTL,
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author = {Marcell Vazquez-Chanlatte},
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title = {mvcisback/py-metric-temporal-logic: v0.1.1},
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month = jan,
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year = 2019,
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doi = {10.5281/zenodo.2548862},
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url = {https://doi.org/10.5281/zenodo.2548862}
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}
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[1]: https://link.springer.com/chapter/10.1007/BFb0031988
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