minor fixes and fixed pursuit (vector field guidance)
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@ -108,26 +108,31 @@ function aggregate() {
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return centroid
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return centroid
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}, {.x=0, .y=0})
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}, {.x=0, .y=0})
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if(neighbors.count() > 0)
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if(neighbors.count() > 0)
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math.vec2.scale(centroid, 1.0 / neighbors.count())
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centroid = math.vec2.scale(centroid, 1.0 / neighbors.count())
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cmdbin = math.vec2.sub(centroid, math.vec2.newp(15.0, id * 2 * math.pi / ROBOTS))
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cmdbin = math.vec2.sub(centroid, math.vec2.newp(3.0, id * 2 * math.pi / ROBOTS))
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cmdbin = LimitSpeed(cmdbin, 1.0/2.0)
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cmdbin = LimitSpeed(cmdbin, 1.0/2.0)
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goto_abs(cmdbin.x, cmdbin.y, 0.0, 0.0)
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goto_abs(cmdbin.x, cmdbin.y, 0.0, 0.0)
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}
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}
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# follow one another
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# follow one another
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rotang = 0.0
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function pursuit() {
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function pursuit() {
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BVMSTATE="PURSUIT"
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BVMSTATE="PURSUIT"
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centroid = neighbors.reduce(function(rid, data, centroid) {
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rd = 15.0
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centroid = math.vec2.add(centroid, math.vec2.newp(data.distance, data.azimuth))
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pc = 3.2
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return centroid
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vd = 15.0
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r_vec = neighbors.reduce(function(rid, data, r_vec) {
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r_vec = math.vec2.add(r_vec, math.vec2.newp(data.distance, data.azimuth))
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return r_vec
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}, {.x=0, .y=0})
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}, {.x=0, .y=0})
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if(neighbors.count() > 0)
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if(neighbors.count() > 0)
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math.vec2.scale(centroid, 1.0 / neighbors.count())
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r_vec = math.vec2.scale(r_vec, 1.0 / neighbors.count())
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rotang = rotang + math.pi/50.0
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r = math.vec2.length(r_vec)
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cmdbin = math.vec2.sub(centroid, math.vec2.newp(80.0, id * 2 * math.pi / ROBOTS + rotang))
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gamma = vd / math.sqrt((r-rd)*(r-rd)+pc*pc*r*r)
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cmdbin = LimitSpeed(cmdbin, 1.0/5.0)
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dr = -gamma * (r-rd)
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goto_abs(cmdbin.x, cmdbin.y, 0.0, 0.0)
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dT = gamma * pc
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vfg = math.vec2.newp(r+dr*0.1, math.vec2.angle(r_vec)+dT*0.1)
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vfg = LimitSpeed(vfg, 2.0)
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goto_abs(vfg.x, vfg.y, 0.0, 0.0)
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}
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}
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# Lennard-Jones interaction magnitude
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# Lennard-Jones interaction magnitude
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@ -135,7 +140,6 @@ TARGET = 8.0
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EPSILON = 3.0
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EPSILON = 3.0
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function lj_magnitude(dist, target, epsilon) {
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function lj_magnitude(dist, target, epsilon) {
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lj = -(epsilon / dist) * ((target / dist)^4 - 1.2 * (target / dist)^2)
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lj = -(epsilon / dist) * ((target / dist)^4 - 1.2 * (target / dist)^2)
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# log(dist, (target / dist), (epsilon / dist), lj)
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return lj
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return lj
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}
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}
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@ -156,7 +160,7 @@ function formation() {
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# Calculate accumulator
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# Calculate accumulator
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accum_lj = neighbors.map(lj_vector).reduce(lj_sum, math.vec2.new(0.0, 0.0))
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accum_lj = neighbors.map(lj_vector).reduce(lj_sum, math.vec2.new(0.0, 0.0))
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if(neighbors.count() > 0)
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if(neighbors.count() > 0)
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math.vec2.scale(accum_lj, 1.0 / neighbors.count())
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accum_lj = math.vec2.scale(accum_lj, 1.0 / neighbors.count())
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old_lj = LimitSpeed(math.vec2.add(old_lj, accum_lj), 1.0/4.0)
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old_lj = LimitSpeed(math.vec2.add(old_lj, accum_lj), 1.0/4.0)
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goto_abs(old_lj.x, old_lj.y, 0.0, 0.0)
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goto_abs(old_lj.x, old_lj.y, 0.0, 0.0)
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}
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}
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@ -7,7 +7,7 @@ include "taskallocate/graphformGPS.bzz"
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include "vstigenv.bzz"
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include "vstigenv.bzz"
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#State launched after takeoff
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#State launched after takeoff
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AUTO_LAUNCH_STATE = "AGGREGATE"
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AUTO_LAUNCH_STATE = "PURSUIT"
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#####
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#####
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# Vehicule type:
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# Vehicule type:
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