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I am trying to find the midpoint using duration traffic values(n1,n2,n3) in specified departure time(timeStamp) so that all the three-person have the same travel time (midpoint by Time). I'm using Google distance matrix.

I have been passing all three locations (a,b,c) & midpoint(d) based on the distance of the three locations.

I tried finding their midpoint by subtraction(all three), average(three of them) and subtracting with (Max and Min Values of n1,n2,n3) so that there traveling time becomes equal or less than the specified time(maxTime distance b/w three of them). Then point becomes the Midpoint But I couldn't find a solution. Suggestions are much appreciated.

const maxTime = 5000;
var i = 0;
z = 0;
j = 0

//Distance Matrix Api
function getDistanceMatrix(a, b, c, d, timeStamp, googleWarnings, copyRights) {
  clientMap.post(config_KEYS.DISTANCE_MATRIX_API + a + "|" + b + "|" + c + "&destinations=" + d.lat + "," + d.lng + "+&key=" + config_KEYS.GOOGLE_API_KEY + "&departure_time=" + timeStamp + "", function(gotDistanceResp, err) {
    if (err) {
      res.status(400).json(gotDistanceResp)
    } else {
      let n1 = gotDistanceResp.rows[0].elements[0].duration_in_traffic.value
      let n2 = gotDistanceResp.rows[1].elements[0].duration_in_traffic.value
      let n3 = gotDistanceResp.rows[2].elements[0].duration_in_traffic.value
      // let minTime = Math.abs(n2 - n1)
      let minTime = Math.round((n3 + n2 + n1) / 3)
      if (n1 >= n2 && n1 >= n3) {
        if (minTime <= maxTime) {
          res.send(gotDistanceResp)
        } else {
          i++;
          let arrayPoints = getDirectionApi(a, d, timeStamp, i)
        }
      } else {
        if (n2 >= n1 && n2 >= n3) {
          if (minTime <= maxTime) {
            res.send(gotDistanceResp)
          } else {
            j++;
            let arrayPoints = getDirectionApi(b, d, timeStamp, j)
          }
        } else {
          if (n3 >= n1 && n3 >= n1) {
            if (minTime <= maxTime) {
              res.send(gotDistanceResp)
            } else {
              z++;
              let arrayPoints = getDirectionApi(c, d, timeStamp, z)
            }
          } else {
            res.send(gotDistanceResp)
          }
        }
      }
    }
  })
}
//Get Direction Api
function getDirectionApi(a, b, timeStamp, r) {
  clientMap.post(config_KEYS.DIRECTION_API + a + "&destination=" + b.lat + "," + b.lng + "&key=" + config_KEYS.GOOGLE_API_KEY + "&departure_time=" + timeStamp + "", function(route, error) {
    if (route.geocoder_status == "ZERO_RESULTS" | route.status == "INVALID_REQUEST") {
      res.status(400).send(route)
    } else {
      let googleWarnings = route.routes[0].warnings
      let copyRights = route.routes[0].copyrights
      let polyline = route.routes[0].overview_polyline.points
      let decoded = decode(polyline)
      let midPointCha = getDistanceMatrix(Location1, Location2, Location3, reversedMidArra[r])
    }
  })
}
2
  • 2
    Can you just confirm if I understand your question correctly. If 3 people are leaving 3 distinct locations you are trying to find a point where they should me so that it takes them the same time to reach this point? Sep 4, 2018 at 8:55
  • 1
    Yes@SvetoslavPetrov
    – RAHUL SRV
    Sep 4, 2018 at 11:05

2 Answers 2

7

Below, I have created an algorithm (in pseudocode) that minimizes the longest travel time:

Problem: Given starting points A, B, and C: Find a central location D such that the travel duration from each point to D is similar. (where "similar" is defined as "within a specified tolerance"...for example, this could be set to 1 minute.)

Preparation:

    Determine a candidate location for D:
    the "center of gravity" or geographic midpoint.
    (Average the x coordinates and the y coordinates.)
    Set _Converged_ to false.

Execution:

    While (not _Converged_) {
      Query the travel time from each start location to point D.

      If all three travel times are within the specified tolerance:
        Then 
          _Converged_ = true // current point D is returned as acceptable

        Else
          Average the three travel times: avg
          Identify the starting point with the longest travel time: 
            where Q is A, B, or C and t is the travel time.
          Divide the average by t:
            where p is avg/t
          Compute a new point E between Q and D based on percentage p
            (for example, if p is .66, then new point is 66% along
            the vector from Q to D)
            E = p(D - Q) + Q
          Set D to this new point E
            D = E
    }
    return D

The attached figure illustrates an example iteration. enter image description here

Edit: I have implemented a proof of concept demonstration on CodePen. Below is a sample of the code:

else { // Minimize the longest duration
  // First, find the average duration
  let avg = (n[0]+n[1]+n[2])/3;
  // Divide the average by longest travel time
  let p = avg / n[maxN];
  // Compute a new point E between Q and D based on percentage p
  // E = p(D - Q) + Q
  // D = E
  destination[0].lat = lerp(origins[maxN].lat,destination[0].lat,p);
  destination[0].lng = lerp(origins[maxN].lng,destination[0].lng,p);
  // Cycle again, waiting a bit to prevent server overload
  setTimeout(calculateDistances, 500+Math.random()*100);
}

See DEMO

0
5
+300

You can try below one, Which is more slimier like What James suggested but my point of view just find the path between A and D then find "p" point(Which is avg / n[maxN] *100) in the decoded path.

ex: if p is 73 then find the path between A and D decode for example it has 235 points then (Math.round((235/100)*73)=172) Pick 172 position latitude and longitude in the decoded path of A,D) and repeat process.

Please check attached figure

let arrOfMid = [];
//Distance Matrix Api
function getDistanceMatrix(a, b, c, d, timeStamp, i) {
    clientMap.post(config_KEYS.DISTANCE_MATRIX_API + a + "|" + b + "|" + c + "&destinations=" + d.lat + "," + d.lng + "+&key=" + config_KEYS.GOOGLE_API_KEY + "&departure_time=" + timeStamp + "", function (gotDistanceResp, err) {
        if (gotDistanceResp.status == "OVER_QUERY_LIMIT" | gotDistanceResp.status == "REQUEST_DENIED") {
            res.status(400).json(gotDistanceResp)
        }
        else {
            let n1 = gotDistanceResp.rows[0].elements[0].duration_in_traffic.value
            let n2 = gotDistanceResp.rows[1].elements[0].duration_in_traffic.value
            let n3 = gotDistanceResp.rows[2].elements[0].duration_in_traffic.value
            let maxValue = Math.max(n1, n2, n3)
            let minTime = Math.abs(n2 - n1)
            let avg = Math.round((n3 + n2 + n1) / 3)
            let value = (avg / maxValue) * 100
            if (n1 >= n2 && n1 >= n3) {
                if (arrOfMid.includes(gotDistanceResp.destination_addresses[0]) == true) {
                    res.send(gotDistanceResp)
                }
                else {
                    arrOfMid.push(d)
                    i++;
                    let arrayForTenPerc = getDirectionApi(a, d, timeStamp, value, i)
                }

            }
            else {
                if (n2 >= n1 && n2 >= n3) {

                    if (arrOfMid.includes(gotDistanceResp.destination_addresses[0]) == true) {
                        res.send(gotDistanceResp)
                    }
                    else {
                        arrOfMid.push(gotDistanceResp.destination_addresses[0])
                        j++;
                        let arrayPoints = getDirectionApi(b, d, timeStamp, value, j)
                    }

                }
                else {
                    if (n3 >= n1 && n3 >= n1) {
                        if (arrOfMid.includes(gotDistanceResp.destination_addresses[0]) === true) {

                            res.send(gotDistanceResp)
                        }
                        else {
                            arrOfMid.push(gotDistanceResp.destination_addresses[0])

                            z++;
                            let arrayPoints = getDirectionApi(c, d, timeStamp, value, z)
                        }
                    }
                    else {
                        res.send(gotDistanceResp)
                    }
                }
            }
        }
    })
}


//Get Direction Api
function getDirectionApi(a, b, timeStamp, r, i) {
    clientMap.post(config_KEYS.DIRECTION_API + a + "&destination=" + b.lat + "," + b.lng + "&key=" + config_KEYS.GOOGLE_API_KEY + "&departure_time=" + timeStamp + "", function (route, error) {
        if (route.geocoder_status == "ZERO_RESULTS" | route.status == "INVALID_REQUEST") {
            res.status(400).send(route)
        }
        else {
            let polyline = route.routes[0].overview_polyline.points
            let decoded = decode(polyline)
            let x = Math.round(decoded.length / 100 * r)
            let midPointCha = getDistanceMatrix(Location1, Location2, Location3, decoded[x], timeStamp, i)
        }
    })
}

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