This is a header-only C++11 library implementing common variants of the well-known Kalman-Filter. Currently implementations of these filter variants are included:
This library makes heavy use of the excellent Eigen3 library for linear algebra operations and is thus a required dependency.
In order to use the library to do state estimation, a number of things have to be done:
A fairly worked out example on how to use the library is given in examples/Robot1
with detailed commentary.
The state vector defines the state variables of your system that should be estimated.
You can use the readily available Kalman::Vector
template type as your vector or derive your own specialized state vector from that.
In case your system has some control input, a control vector has to be defined analogously to the state vector.
The system model defines how the system state evolves over time, i.e. from one time-step to the next given some control input.
The transition function is in general non-linear. Any system model must derive from the base SystemModel
class template.
In case a linearized filter such as the Extended Kalman Filter should be used, then the system model must be given as linearized model by deriving from LinearizedSystemModel
and defining the corresponding jacobians.
Note that linearized models can of course also be used with fully non-linear filters such as the Unscented Kalman Filter.
The measurement vector represents the measurement taken by some sensors and has to be defined analogously to the state and control vectors.
The measurement model defines how a measurement is related to the system state, i.e. it maps a system state to the expected sensor measurement.
Measurement models must derive from the class template MeasurementModel
or, in case of linearized models for EKFs, from LinearizedMeasurementModel
.
The filters are running very slowly, why is that and how can I make them faster? By default, operations in Eigen include a lot of debug code, such as checking for valid matrix and vector bounds and so on. To speed things up, these checks can be disabled using the pre-processor define
-DEIGEN_NO_DEBUG
which is also automatically set when using the general
-DNDEBUG
flag. In addition to that the regular optimization flags including -O2
will make things faster.
The MIT License (MIT)
Copyright (c) 2015 mherb
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