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posterior.go
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posterior.go
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package main
import "math"
func calculatePosterior(res Fingerprint, ps FullParameters) (string, map[string]float64) {
if !ps.Loaded {
ps, _ = openParameters(res.Group)
}
macs := []string{}
W := make(map[string]int)
for v2 := range res.WifiFingerprint {
macs = append(macs, res.WifiFingerprint[v2].Mac)
W[res.WifiFingerprint[v2].Mac] = res.WifiFingerprint[v2].Rssi
}
n, inNetworkAlready := hasNetwork(ps.NetworkMacs, macs)
// Debug.Println(n, inNetworkAlready, ps.NetworkLocs[n])
if !inNetworkAlready {
Warning.Println("Not in network")
Debug.Println(n, inNetworkAlready, ps.NetworkLocs[n], res)
}
if len(ps.NetworkLocs[n]) == 1 {
for key := range ps.NetworkLocs[n] {
PBayesMix := make(map[string]float64)
PBayesMix[key] = 1
return key, PBayesMix
}
}
PBayes1 := make(map[string]float64)
PBayes2 := make(map[string]float64)
PA := 1.0 / float64(len(ps.NetworkLocs[n]))
PnA := (float64(len(ps.NetworkLocs[n])) - 1.0) / float64(len(ps.NetworkLocs[n]))
for loc := range ps.NetworkLocs[n] {
PBayes1[loc] = float64(0)
PBayes2[loc] = float64(0)
for mac := range W {
weight := float64(0)
nweight := float64(0)
if _, ok := ps.Priors[n].MacFreq[loc][mac]; ok {
weight = float64(ps.Priors[n].MacFreq[loc][mac])
} else {
weight = float64(ps.Priors[n].Special["MacFreqMin"])
}
if _, ok := ps.Priors[n].NMacFreq[loc][mac]; ok {
nweight = float64(ps.Priors[n].NMacFreq[loc][mac])
} else {
nweight = float64(ps.Priors[n].Special["NMacFreqMin"])
}
PBayes1[loc] += math.Log(weight*PA) - math.Log(weight*PA+PnA*nweight)
if float64(ps.MacVariability[mac]) >= ps.Priors[n].Special["VarabilityCutoff"] && W[mac] > MinRssi {
ind := int(W[mac] - MinRssi)
if len(ps.Priors[n].P[loc][mac]) > 0 {
PBA := float64(ps.Priors[n].P[loc][mac][ind])
PBnA := float64(ps.Priors[n].NP[loc][mac][ind])
if PBA > 0 {
PBayes2[loc] += (math.Log(PBA*PA) - math.Log(PBA*PA+PBnA*PnA))
} else {
PBayes2[loc] += -1
}
}
}
}
}
PBayes1 = normalizeBayes(PBayes1)
PBayes2 = normalizeBayes(PBayes2)
PBayesMix := make(map[string]float64)
bestLocation := ""
maxVal := float64(-100)
for key := range PBayes1 {
PBayesMix[key] = ps.Priors[n].Special["MixIn"]*PBayes1[key] + (1-ps.Priors[n].Special["MixIn"])*PBayes2[key]
if PBayesMix[key] > maxVal {
maxVal = PBayesMix[key]
bestLocation = key
}
}
return bestLocation, PBayesMix
}
func calculatePosteriorThreadSafe(res Fingerprint, ps FullParameters, cutoff float64) (map[string]float64, map[string]float64) {
if !ps.Loaded {
ps, _ = openParameters(res.Group)
}
macs := []string{}
W := make(map[string]int)
for v2 := range res.WifiFingerprint {
macs = append(macs, res.WifiFingerprint[v2].Mac)
W[res.WifiFingerprint[v2].Mac] = res.WifiFingerprint[v2].Rssi
}
n, inNetworkAlready := hasNetwork(ps.NetworkMacs, macs)
// Debug.Println(n, inNetworkAlready, ps.NetworkLocs[n])
if !inNetworkAlready {
Warning.Println("Not in network")
Debug.Println(n, inNetworkAlready, ps.NetworkLocs[n], res)
}
PBayes1 := make(map[string]float64)
PBayes2 := make(map[string]float64)
PA := 1.0 / float64(len(ps.NetworkLocs[n]))
PnA := (float64(len(ps.NetworkLocs[n])) - 1.0) / float64(len(ps.NetworkLocs[n]))
for loc := range ps.NetworkLocs[n] {
PBayes1[loc] = float64(0)
PBayes2[loc] = float64(0)
for mac := range W {
weight := float64(0)
nweight := float64(0)
if _, ok := ps.Priors[n].MacFreq[loc][mac]; ok {
weight = float64(ps.Priors[n].MacFreq[loc][mac])
} else {
weight = float64(ps.Priors[n].Special["MacFreqMin"])
}
if _, ok := ps.Priors[n].NMacFreq[loc][mac]; ok {
nweight = float64(ps.Priors[n].NMacFreq[loc][mac])
} else {
nweight = float64(ps.Priors[n].Special["NMacFreqMin"])
}
PBayes1[loc] += math.Log(weight*PA) - math.Log(weight*PA+PnA*nweight)
if float64(ps.MacVariability[mac]) >= cutoff && W[mac] > MinRssi {
ind := int(W[mac] - MinRssi)
if len(ps.Priors[n].P[loc][mac]) > 0 {
PBA := float64(ps.Priors[n].P[loc][mac][ind])
PBnA := float64(ps.Priors[n].NP[loc][mac][ind])
if PBA > 0 {
PBayes2[loc] += (math.Log(PBA*PA) - math.Log(PBA*PA+PBnA*PnA))
} else {
PBayes2[loc] += -1
}
}
}
}
}
PBayes1 = normalizeBayes(PBayes1)
PBayes2 = normalizeBayes(PBayes2)
return PBayes1, PBayes2
}
func normalizeBayes(bayes map[string]float64) map[string]float64 {
vals := make([]float64, len(bayes))
i := 0
for _, val := range bayes {
vals[i] = val
i++
}
mean := average64(vals)
sd := standardDeviation64(vals)
for key := range bayes {
if sd < 1e-5 {
bayes[key] = 0
} else {
bayes[key] = (bayes[key] - mean) / sd
}
if math.IsNaN(bayes[key]) {
bayes[key] = 0
}
}
return bayes
}