Transcription of Chapter utorial: The Kalman Filter
{{id}} {{{paragraph}}}
Example: bachelor of science
Chapter utorial: The Kalman Filter
Chapter11 lter[1]haslongbeenregardedastheoptimalso lutiontomanytrackinganddatapredictiontas ks,[2]. lterisconstructedasameansquarederrormini miser,butanalternativederivationofthe lterisalsoprovidedshowinghowthe lteringistoextracttherequiredinformation fromasignal, nethegoalofthe ;yk=akxk+nk( )where;ykisthetimedependentobservedsigna l,akisagainterm, erencebetweentheestimateof^xkandxkitself istermedtheerror;f(ek)=f(xk ^xk)( )Theparticularshapeoff(ek)isdependentupo ntheapplication,howeveritisclearthatthef unctionshouldbebothpositiveandincreasemo notonically[3].Anerrorfunctionwhichexhib itsthesecharac-teristicsisthesquarederro rfunction;f(ek)=(xk ^xk)2( )133 Sinceitisnecessarytoconsidertheabilityof the ltertopredictmanydataoveraperiodoftimeam oremeaningfulmetricistheexpectedvalueoft heerrorfunction;lossfunction=E(f(ek))( )Thisresultsinthemeansquarederror(MSE)fu nction; (t)=E e2k ( ) , ningthegoalofthe lterto ndingthe^ ;max[P(yj^x)]( )AssumingthattheadditiverandomnoiseisGau ssiandistributedwithastandarddeviationof kgives;P(ykj^xk)=Kk
tro duction The Kalman lter [1] has long b een regarded as the optimal solution to man y trac king and data prediction tasks, [2]. Its use in the analysis of visual motion has b een do cumen ted frequen tly. The standard Kalman lter deriv ation is giv en here as a tutorial exercise in the practical use of some of the statistical tec hniques
Loading..
Tags:
Information
Domain:
Source:
Link to this page:
Please notify us if you found a problem with this document: