Probabilistic Regression using Conditional Generative Adversarial Networks

Oskarsson, Joel

January 2020

Regression is a central problem in statistics and machine learning with applications everywhere in science and technology. In probabilistic regression the relationship between a set of features and a real-valued target variable is modelled as a conditional probability distribution. There are cases where this distribution is very complex and not properly captured by simple approximations, such as assuming a normal distribution. This thesis investigates how conditional Generative Adversarial Networks (GANs) can be used to properly capture more complex conditional distributions. GANs have seen great success in generating complex high-dimensional data, but less work has been done on their use for regression problems. This thesis presents experiments to better understand how conditional GANs can be used in probabilistic regression. Different versions of GANs are extended to the conditional case and evaluated on synthetic and real datasets. It is shown that conditional GANs can learn to estimate a wide range of different distributions and be competitive with existing probabilistic regression models.

machine learning

ml

regression

probabilistic

distribution

cgan

gan

conditional gan

adversarial networks

neural network

deep learning

f-gan

f-cgan

f-divergence

adversarial training

bimodal

heteroskedastic

mmd

maximum mean discrepancy

gmmn

generative moment matching network

conditional gmmn

ipm

kde

cgan evaluation

cgan regression

gan regression

cgan-regression

regression using gan

deep

nn

implicit

generative

conditional

model

complex noise

aleatoric

uncertainty

dctd

mdn

heteroskedastic regression

gp

Other Computer and Information Science

Annan data- och informationsvetenskap

Evaluation of Target Tracking Using Multiple Sensors and Non-Causal Algorithms

Vestin, Albin, Strandberg, Gustav

January 2019

Today, the main research field for the automotive industry is to find solutions for active safety. In order to perceive the surrounding environment, tracking nearby traffic objects plays an important role. Validation of the tracking performance is often done in staged traffic scenarios, where additional sensors, mounted on the vehicles, are used to obtain their true positions and velocities. The difficulty of evaluating the tracking performance complicates its development. An alternative approach studied in this thesis, is to record sequences and use non-causal algorithms, such as smoothing, instead of filtering to estimate the true target states. With this method, validation data for online, causal, target tracking algorithms can be obtained for all traffic scenarios without the need of extra sensors. We investigate how non-causal algorithms affects the target tracking performance using multiple sensors and dynamic models of different complexity. This is done to evaluate real-time methods against estimates obtained from non-causal filtering. Two different measurement units, a monocular camera and a LIDAR sensor, and two dynamic models are evaluated and compared using both causal and non-causal methods. The system is tested in two single object scenarios where ground truth is available and in three multi object scenarios without ground truth. Results from the two single object scenarios shows that tracking using only a monocular camera performs poorly since it is unable to measure the distance to objects. Here, a complementary LIDAR sensor improves the tracking performance significantly. The dynamic models are shown to have a small impact on the tracking performance, while the non-causal application gives a distinct improvement when tracking objects at large distances. Since the sequence can be reversed, the non-causal estimates are propagated from more certain states when the target is closer to the ego vehicle. For multiple object tracking, we find that correct associations between measurements and tracks are crucial for improving the tracking performance with non-causal algorithms.

evaluation

target tracking

multiple sensors

non-causal

smoother

smoothing

tracking

vehicle tracking

camera

lidar

estimate

estimation

prediction

vehicle dynamics

sensor fusion

real-time tracking

extended kalman filter

filter validation

validation

position estimation

velocity estimation

dynamic model

model complexity

multi object tracking

multiple object

tracking

single object tracking

data association

tracking fundamentals

iterated kalman filter

track management

gnn

global nearest neighbour

mahalanobis

mahalanobis distance

performance evaluation

differential gps

dgps

roi

ego

several sensors

sensors

rmse

root mean square error

invertible motion

anti-causal motion

anti-causal tracking

constant velocity

gnn

imu

tfs

two filter smoother

ekf

rts

radar

inertial measurement unit

nonlinear

nonlinear systems

mono camera

monocular camera

noise model

tracking performance

fixed interval smoothing

m/n logic

centralized fusion

non-causal object tracker

car tracking

car dynamics

automotive

active safety

object tracking

automotive industry

thesis

master

reverse dynamics

reverse tracking

reverse sequence

sequence tracking

data propagation

ground truth

estimating ground truth

additional sensors

mounted sensors

true estimates

environment

comparison

algorithm

independent targets

overlapping

measurements

occluded

track switch

improve

lower

uncertainty

more

certain

state

process

noise

covariance

sampling

image

sprt

adas

cnn

cv

pdf

track

target

ego

tracker

tentative track

observatiom

online tracking

offline tracking

online

offline

recorded

sequences

robust

self driving

self-driving

car

traffic

trajectory

true state

scenario

scenarios

future

accurate

output

advanced

driver

assistance

systems

non-linear

complex noise

pedestrian

truck

bus

maneuvering

vehicles

processed

measurement

frame

state

correction

probability

density

function

tuning

likelihood

transition

measurement

motion

model

recursion

gaussian

approximation

distribution

linear

jacobian

multiplicative

noise

ratio

ad

hoc

ad hoc

state

space

approach

backward

auction

euclidean

distance

statistical

threshold

gating

association

margin

normalize

covariance

matrix

fusion

confirmed

rejected

tentative

history

absolute

error

modular

ego motion

parameters

variables

logg

hardware

specification

fused

causal

factorization

independent

uncorrelated

transform

moving

rotation

translation

oncoming

overtaking

Control Engineering

Reglerteknik