From: Steven Baltakatei Sandoval Date: Tue, 7 Jul 2020 09:27:46 +0000 (+0000) Subject: test(bkgpslog):Test different PID calc X-Git-Url: https://zdv2.bktei.com/gitweb/EVA-2020-02.git/commitdiff_plain/7970872b7d63986ed6cb55837e99296c466e848f test(bkgpslog):Test different PID calc --- diff --git a/exec/bkgpslog b/exec/bkgpslog index 60ab2c1..bf21dfc 100755 --- a/exec/bkgpslog +++ b/exec/bkgpslog @@ -28,10 +28,10 @@ declare -a argRecPubKeys # for processArguments function ## Initialize variables OPTION_VERBOSE=""; OPTION_ENCRYPT=""; OPTION_COMPRESS=""; OPTION_TMPDIR=""; -errResetx10e3=0; BUFFER_TTL_ADJ_FLOAT=""; +errReset=0; BUFFER_TTL_ADJ_FLOAT=""; ### PID Control factors -K_P=10; # Gain for compensating buffer round lag -T_I=2; # Consider this number of past buffer rounds to eliminate error +K_P=1; # Gain for compensating buffer round lag +T_I=1000; # Consider this number of past buffer rounds to eliminate error T_D=1; # Predict value this number of buffer rounds into the future #===BEGIN Declare local script functions=== @@ -954,12 +954,12 @@ magicBufferSleepPID() { # Calculate Error, errNS, in nanoseconds ## Get current time - timeBufferStartNS="$(timeEpochNS)" && vbm "timeBufferStartNS:$timeBufferStartNS"; + timeBufferStartNS="$(timeEpochNS)" && vbm "timeBufferStartNS :$timeBufferStartNS"; ## Calculate expected time (from start time, current buffer round number, nominal BUFFER_TTL) timeBufferStartNSExp="$(( (timeBufferFirstNS) + (BUFFER_TTL_NS * bufferRound) ))" && vbm "timeBufferStartNSExp:$timeBufferStartNSExp"; ## Calculate error (diff between timeBufferStartNSExp and timeBufferStartNS; usually negative) errNS="$(( timeBufferStartNSExp - timeBufferStartNS ))" && vbm "errNS:$errNS"; - errNSx10e3="$((errNS*10**3))" && vbm "errNSx10e3:$errNSx10e3"; +# errNSx10e3="$((errNS*10**3))" && vbm "errNSx10e3:$errNSx10e3"; # ## Append error to errorHistory # errorHistory+=("errNS"); # ### Trim errorHistory array if over errorHistorySize @@ -975,14 +975,17 @@ magicBufferSleepPID() { # for value in "${errorHistory[@]}"; do # errReset=$(( errReset + ( value*BUFFER_TTL_NS ) )); # done; - errResetx10e3="$(( ( errResetx10e3 + ( errNSx10e3 * BUFFER_TTL_NS ) )*10**3 ))" && vbm "errResetx10e3:$errResetx10e3"; + errReset="$(( (errReset + (errNS*BUFFER_TTL_NS)) ))" && vbm "errResetTerm:$errResetTerm"; +# errResetx10e3="$(( ( errResetx10e3 + ( errNSx10e3 * BUFFER_TTL_NS ) )*10**3 ))" && vbm "errResetx10e3:$errResetx10e3"; - # Calculate errRate in nanoseconds per 1000 nanoseconds - errRatex10e3="$(( ( errNSx10e3 ) / BUFFER_TTL_NS ))" && vbm "errRatex10e3:$errRatex10e3"; + # Calculate errRate in nanoseconds per nanosecond + errRate="$(( errNS / BUFFER_TTL_NS ))" && vbm "errRateTerm:$errRateTerm"; +# errRatex10e3="$(( ( errNSx10e3 ) / BUFFER_TTL_NS ))" && vbm "errRatex10e3:$errRatex10e3"; # Calculate PID control signal ## ADJ = K_P * (errNS + errReset/T_I + errRate*T_D) - ADJ="$((K_P*(errNSx10e3 + (errResetx10e3/T_I) + (errRatex10e3*T_D) )/(10**3)))" && vbm "ADJ:$ADJ"; + ADJ="$(( K_P*(errNS + errReset/T_I + errRate*T_D) ))" && vbm "ADJ:$ADJ"; +# ADJ="$((K_P*(errNSx10e3 + (errResetx10e3/T_I) + (errRatex10e3*T_D) )/(10**3)))" && vbm "ADJ:$ADJ"; # Calculate BUFFER_TTL_ADJ_FLOAT from ADJ (ns) ## Calculate BUFFER_TTL_ADJ in nanoseconds (BUFFER_TTL_ADJ_NS = BUFFER_TTL_NS + ADJ)