Merge branch 'main' of https://gitea.centraal.wbd-rd.nl/woutverheijen/rotatingMachine

updates
merge upstream
2025-11-06 08:51:21 +01:00 · 2025-11-06 08:51:19 +01:00 · 2025-11-06 07:03:29 +00:00 · 2025-10-16 13:21:38 +00:00 · 2025-10-14 13:52:39 +02:00 · 2025-10-07 18:10:45 +02:00
3 changed files with 220 additions and 51 deletions
--- a/README.md
+++ b/README.md
@@ -1 +1,23 @@
-# rotating machine
+# rotating machine
 ---Explanation KPIs---
 Mean Time Between Failures: MTBF is a key indicator of asset reliability. It represents the average amount of time between two consecutive failures during normal operation. The higher the value, the better.
 - Formula: MTBF = runtime / failures
 Mean Time to Repair: MTTR focuses on the speed of failure recovery. It indicates how long it takes on average to repair a failure and restore the system to operational condition. The lower the value, the better.
 - Formula: MTTR = downtime / failures
 Asset Availability: Asset availability indicates how often machines are available for use. Higher availability means that the equipment experiences fewer breakdowns and remains operational for a greater amount of time.
 - Formula: availability = MTBF / (MTBF + MTTR) * 100% 
 Asset Health Index: A score ranging from 0 (optimal condition) to 5 (worst case) that reflects the overall health status of an asset.
 ---KPI message---
 The message consists of the following components:
 - asset tagnumber: 
 - asset availability
 - mean time between failures
 - mean time to repair
 - asset health index
 - asset health color: Gives a color based on the asset health index (0 = Darkgreen, 1 = Green, 2 = Yellow, 3 = Orange, 4 = Red, 5 = Darkred.)
 - total failures: the total number of failures that have occured for a particular asset
--- a/rotatingMachine.html
+++ b/rotatingMachine.html
@@ -1,3 +1,13 @@
 <!--
 | S88-niveau             | Primair (blokkleur) | Tekstkleur |
 | ---------------------- | ------------------- | ---------- |
 | **Area**               | `#0f52a5`           | wit        |
 | **Process Cell**       | `#0c99d9`           | wit        |
 | **Unit**               | `#50a8d9`           | zwart      |
 | **Equipment (Module)** | `#86bbdd`           | zwart      |
 | **Control Module**     | `#a9daee`           | zwart      |
 -->
 <!-- Load the dynamic menu & config endpoints -->
 <script src="/rotatingMachine/menu.js"></script>
 <script src="/rotatingMachine/configData.js"></script>
@@ -5,7 +15,7 @@
 <script>
  RED.nodes.registerType("rotatingMachine", {
    category: "EVOLV",
-    color: "#4f8582",
+    color: "#86bbdd",
        defaults: {
          // Define specific properties
@@ -41,7 +51,7 @@
    outputs: 3,
    inputLabels: ["Input"],
    outputLabels: ["process", "dbase", "parent"],
-    icon: "font-awesome/fa-tachometer",
+    icon: "font-awesome/fa-cog",
    label: function () {
      return this.positionIcon + " " + this.category.slice(0, -1) || "Machine";
--- a/src/specificClass.js
+++ b/src/specificClass.js
@@ -1,48 +1,3 @@
 /**
 * @file machine.js
 *
 * Permission is hereby granted to any person obtaining a copy of this software 
 * and associated documentation files (the "Software"), to use it for personal 
 * or non-commercial purposes, with the following restrictions:
 *
 * 1. **No Copying or Redistribution**: The Software or any of its parts may not 
 *    be copied, merged, distributed, sublicensed, or sold without explicit 
 *    prior written permission from the author.
 * 
 * 2. **Commercial Use**: Any use of the Software for commercial purposes requires 
 *    a valid license, obtainable only with the explicit consent of the author.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 
 * FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT. IN NO EVENT SHALL THE 
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES, OR OTHER 
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT, OR OTHERWISE, ARISING FROM, 
 * OUT OF, OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 
 * SOFTWARE.
 *
 * Ownership of this code remainregisterChilds solely with the original author. Unauthorized 
 * use of this Software is strictly prohibited.
 *
 * @summary A class to interact and manipulate machines with a non-euclidian curve
 * @description A class to interact and manipulate machines with a non-euclidian curve
 * @module machine
 * @exports machine
 * @version 0.1.0
 * @since 0.1.0
 * 
 * Author:
 * - Rene De Ren
 * Email:
 * - r.de.ren@brabantsedelta.nl
 * 
 *  Add functionality later
  // -------- Operational Metrics -------- //
 maintenanceAlert: this.state.checkMaintenanceStatus()
 */
 //load local dependencies
 const EventEmitter = require('events');
 const {loadCurve,logger,configUtils,configManager,state, nrmse, MeasurementContainer, predict, interpolation , childRegistrationUtils} = require('generalFunctions');
 const { name } = require('../../generalFunctions/src/convert/lodash/lodash._shimkeys');
@@ -116,6 +71,37 @@ class Machine {
    this.child = {}; // object to hold child information so we know on what to subscribe
    this.childRegistrationUtils = new childRegistrationUtils(this); // Child registration utility
        // --- KPI tracking ---
    this.kpi = {
      failures: 0,
      totalRuntimeHours: 0,
      totalDowntimeHours: 0,
      lastFailureTime: null,
      lastRepairTime: null,
      MTBF: 0,
      MTTR: 0,
      availability: 0
    };
    this.assetHealth = {
      index: 0  // 0 = optimal, 5 = failure
    };
    this.state.emitter.on('stateChange', (payload) => {
      const stateStr = typeof payload === 'string'
        ? payload
        : (payload?.state ?? payload?.newState ?? payload);
      if (typeof stateStr !== 'string') {
        this.logger.warn(`stateChange event without parsable state: ${JSON.stringify(payload)}`);
        return;
      }
      this._handleStateChangeForKPI(stateStr);
    });
  }
  /*-------------------               Register child events               -------------------*/
@@ -513,13 +499,12 @@ _callMeasurementHandler(measurementType, value, position, context) {
    }
  }
-  //  rich context handler for pressure updates
+  // context handler for pressure updates
  updateMeasuredPressure(value, position, context = {}) {
    //  Enhanced logging with child context
    this.logger.debug(`Pressure update: ${value} at ${position} from ${context.childName || 'child'} (${context.childId || 'unknown-id'})`);
-    //  Store in parent's measurement container (your existing logic)
+    //  Store in parent's measurement container 
    this.measurements.type("pressure").variant("measured").position(position).value(value, context.timestamp, context.unit);
    // Determine what kind of value to use as pressure (upstream , downstream or difference)
@@ -574,6 +559,136 @@ _callMeasurementHandler(measurementType, value, position, context) {
    }
  }
 /////////////////////////////
        /**
     * Compute a single drift score in [0..1] using predicted vs measured series.
     * Uses min/max of the *predicted* window as normalization range.
     * If no usable data -> returns 0 (neutral).
     */
    _computeDriftScore() {
      try {
        const metrics = [
          { key: "pressure", pos: "downstream" },
          { key: "flow",     pos: "downstream" },
          { key: "power",    pos: "atEquipment" }
        ];
        const values = [];
        for (const m of metrics) {
          const pred = this.measurements.type(m.key).variant("predicted").position(m.pos).getAllValues()?.values;
          const meas = this.measurements.type(m.key).variant("measured").position(m.pos).getAllValues()?.values;
          if (!Array.isArray(pred) || !Array.isArray(meas) || pred.length < 2 || meas.length < 2) continue;
          const expectedMin = Math.min(...pred);
          const expectedMax = Math.max(...pred);
          if (!Number.isFinite(expectedMin) || !Number.isFinite(expectedMax) || expectedMax === expectedMin) continue;
          const drift = this.errorMetrics.assessDrift(pred, meas, expectedMin, expectedMax);
          if (Number.isFinite(drift)) {
            // assessDrift is already normalized; keep it in [0..1]
            values.push(Math.max(0, Math.min(1, Math.abs(drift))));
          }
        }
        if (values.length === 0) return 0; // neutral if no data
        const avg = values.reduce((s, v) => s + v, 0) / values.length;
        return Math.max(0, Math.min(1, avg));
      } catch (e) {
        this.logger?.warn?.(`Drift score error: ${e.message}`);
        return 0;
      }
    }
    _calculateAssetHealthIndex() {
      try {
        // 1) Hard fail -> worst health
        // if (this.state?.getCurrentState && this.state.getCurrentState() === "failed") 
        if (["off"].includes(this.state?.getCurrentState?.())){
          this.assetHealth.index = 5;
          return 5;
        }
        // 2) Inputs (clamped to 0..1)
        const availability   = typeof this.kpi?.availability === 'number' ? this.kpi.availability : 1;
        const unavailability = 1 - Math.max(0, Math.min(1, availability));
        const effPenalty     = Math.max(0, Math.min(1, typeof this.relDistFromPeak === 'number' ? this.relDistFromPeak : 0));
        const driftScore     = this._computeDriftScore(); // 0..1
        // 3) Blend (weights sum to 1.0)
        // Tweak these if you like: e.g. make drift more/less important.
        const wAvail = 0.4;   // unavailability weight
        const wDrift = 0.4;   // drift weight
        const wEff   = 0.2;   // efficiency distance weight
        const score01 = (wAvail * unavailability) + (wDrift * driftScore) + (wEff * effPenalty);
        // 4) Scale to 0..5 integer, clamp
        const index = Math.max(0, Math.min(5, Math.round(score01 * 5)));
        this.assetHealth.index = index;
        return index;
      } catch (err) {
        this.logger?.error?.(`AHI calc error: ${err.message}`);
        this.assetHealth.index = 0;
        return 0;
      }
    }
 _handleStateChangeForKPI(newState) {
  const now = Date.now();
  const runtime = this.state.getRunTimeHours();
  const lastState = this.state.getPreviousState?.() || "unknown";
  // --- Treat OFF as failure and start of downtime ---
  if (newState === "off") {
    this.kpi.failures++; // always count a new failure when OFF
    this.kpi.lastFailureTime = now; // mark the start of downtime
    this.logger.warn(`Machine OFF (counted as failure). Total failures: ${this.kpi.failures}`);
  }
  // --- When we leave OFF and become OPERATIONAL, book downtime ---
  if (newState === "operational") {
    // Only calculate downtime if we had an OFF period before
    if (this.kpi.lastFailureTime != null) {
      const downtimeHours = (now - this.kpi.lastFailureTime) / 3600000;
      this.kpi.totalDowntimeHours += downtimeHours;
      this.kpi.lastRepairTime = now; // moment of "repaired"
      this.kpi.lastFailureTime = null; // close downtime window
      this.logger.info(`OFF → OPERATIONAL. Added ${downtimeHours.toFixed(2)}h downtime.`);
    }
  }
  // --- Compute KPI Metrics ---
  const failures = this.kpi.failures;
  const downtime = this.kpi.totalDowntimeHours;
  // If no failures yet: MTBF = total runtime; MTTR = 0
  this.kpi.MTBF = failures > 0 ? runtime / failures : runtime;
  this.kpi.MTTR = failures > 0 ? downtime / failures : 0;
  // --- Compute Availability ---
  const mtbf = this.kpi.MTBF ?? 0;
  const mttr = this.kpi.MTTR ?? 0;
  if (mtbf <= 0 && mttr <= 0) {
    this.kpi.availability = 1; // Default: 100% if no data
  } else {
    const availability = mtbf / (mtbf + mttr);
    this.kpi.availability = Math.min(1, Math.max(0, availability)); // clamp 0–1
  }
  this.logger.debug(
    `KPI updated — MTBF: ${this.kpi.MTBF.toFixed(2)}h, MTTR: ${this.kpi.MTTR.toFixed(2)}h, ` +
    `Availability: ${(this.kpi.availability * 100).toFixed(2)}%`
  );
 }
 //////////////////////////////////////////////
  calcDistanceFromPeak(currentEfficiency,peakEfficiency){
    return Math.abs(currentEfficiency - peakEfficiency);
@@ -748,6 +863,13 @@ _callMeasurementHandler(measurementType, value, position, context) {
    output["cog"] = this.cog; // flow / power efficiency
    output["NCog"] = this.NCog; // normalized cog
    output["NCogPercent"] = Math.round(this.NCog * 100 * 100) / 100 ;
    output["kpi_MTBF"] = this.kpi.MTBF;
    output["kpi_MTTR"] = this.kpi.MTTR;
    output["kpi_assetAvailability"] = Math.round(this.kpi.availability * 100 * 100) / 100;
    output["kpi_totalFailuresCount"] = this.kpi.failures;
    output["asset_tag_number"] = 'L001';
    // output["asset_tag_number"] = this.assetTagNumber;
    if(this.flowDrift != null){
      const flowDrift = this.flowDrift;
@@ -762,6 +884,21 @@ _callMeasurementHandler(measurementType, value, position, context) {
    output["effRelDistFromPeak"] = this.relDistFromPeak;
    //this.logger.debug(`Output: ${JSON.stringify(output)}`);
    /////////////////////////////////
    // this._calculateAssetHealthIndex();
    // output["assetHealthIndex"] = this.assetHealth.index;
    this._calculateAssetHealthIndex();
    output["assetHealthIndex"] = this.assetHealth.index;
    // 0 = darkgreen, 1 = green, 2 = yellow, 3 = orange, 4 = red, 5 = darkred
    // const healthColors = ["darkgreen", "green", "yellow", "orange", "red", "darkred"];
    const healthColors = ["#006400", "#008000", "#FFFF00", "#FFA500", "#FF0000", "#8B0000"];
    output["assetHealthColor"] = healthColors[this.assetHealth.index] || "unknown";
    //////////////////////////
    return output;
  }
Author	SHA1	Message	Date
Woutverheijen	f450eab56e	Merge branch 'main' of https://gitea.centraal.wbd-rd.nl/woutverheijen/rotatingMachine	2025-11-06 08:51:21 +01:00
Woutverheijen	9e7c951aa8	updates	2025-11-06 08:51:19 +01:00
woutverheijen	818c989a86	merge upstream	2025-11-06 07:03:29 +00:00
renederen	5a14f44fdd	Merge pull request 'dev-Rene' (#2 ) from dev-Rene into main Reviewed-on: RnD/rotatingMachine#2	2025-10-16 13:21:38 +00:00
znetsixe	d2a0274eb3	changed colours and icon based on s88	2025-10-14 13:52:39 +02:00
znetsixe	2073207df1	removed old readme	2025-10-07 18:10:45 +02:00