const alarms = require("Storage").readJSON("alarm.json",1)||[]; const active = alarms.filter(a=>a.on); // Sleep/Wake detection with Estimation of Stationary Sleep-segments (ESS): // Marko Borazio, Eugen Berlin, Nagihan Kücükyildiz, Philipp M. Scholl and Kristof Van Laerhoven, "Towards a Benchmark for Wearable Sleep Analysis with Inertial Wrist-worn Sensing Units", ICHI 2014, Verona, Italy, IEEE Press, 2014. // https://ubicomp.eti.uni-siegen.de/home/datasets/ichi14/index.html.en // // Function needs to be called for every measurement but returns a value at maximum once a second (see winwidth) // start of sleep marker is delayed by sleepthresh due to continous data reading const winwidth=13; const nomothresh=0.006; const sleepthresh=600; var ess_values = []; var slsnds = 0; function calc_ess(val) { ess_values.push(val); if (ess_values.length == winwidth) { // calculate standard deviation over ~1s const mean = ess_values.reduce((prev,cur) => cur+prev) / ess_values.length; const stddev = Math.sqrt(ess_values.map(val => Math.pow(val-mean,2)).reduce((prev,cur) => prev+cur)/ess_values.length); ess_values = []; // check for non-movement according to the threshold const nonmot = stddev < nomothresh; // amount of seconds within non-movement sections if (nonmot) { slsnds+=1; if (slsnds >= sleepthresh) { return true; // awake } } else { slsnds=0; return false; // sleep } } } // locate next alarm var nextAlarm; active.forEach(alarm => { const now = new Date(); const alarmHour = alarm.hr/1; const alarmMinute = Math.round((alarm.hr%1)*60); var dateAlarm = new Date(now.getFullYear(), now.getMonth(), now.getDate(), alarmHour, alarmMinute); if (dateAlarm < now) { // dateAlarm in the past, add 24h dateAlarm.setTime(dateAlarm.getTime() + (24*60*60*1000)); } if (nextAlarm === undefined || dateAlarm < nextAlarm) { nextAlarm = dateAlarm; } }); function drawString(s, x, y) { g.clearRect(0,y-15,239,y+15); g.reset(); g.setFont("Vector",20); g.setFontAlign(0,0); // align right bottom g.drawString(s, x, y); } function drawApp() { g.clearRect(0,24,239,215); var alarmHour = nextAlarm.getHours(); var alarmMinute = nextAlarm.getMinutes(); if (alarmHour < 10) alarmHour = "0" + alarmHour; if (alarmMinute < 10) alarmMinute = "0" + alarmMinute; const s = alarmHour + ":" + alarmMinute + "\n\n"; E.showMessage(s, "Sleep Phase Alarm"); function drawTime() { if (Bangle.isLCDOn()) { const now = new Date(); var nowHour = now.getHours(); var nowMinute = now.getMinutes(); var nowSecond = now.getSeconds(); if (nowHour < 10) nowHour = "0" + nowHour; if (nowMinute < 10) nowMinute = "0" + nowMinute; if (nowSecond < 10) nowSecond = "0" + nowSecond; const time = nowHour + ":" + nowMinute + ":" + nowSecond; drawString(time, 120, 140); } } setInterval(drawTime, 500); // 2Hz } var buzzCount = 19; function buzz() { if ((require('Storage').readJSON('setting.json',1)||{}).quiet>1) return; // total silence Bangle.setLCDPower(1); Bangle.buzz().then(()=>{ if (buzzCount--) { setTimeout(buzz, 500); } else { // back to main after finish setTimeout(load, 1000); } }); } // run var minAlarm = new Date(); var measure = true; if (nextAlarm !== undefined) { Bangle.drawWidgets(); Bangle.loadWidgets(); // minimum alert 30 minutes early minAlarm.setTime(nextAlarm.getTime() - (30*60*1000)); setInterval(function() { const now = new Date(); const acc = Bangle.getAccel().mag; const swest = calc_ess(acc); if (swest !== undefined) { if (Bangle.isLCDOn()) { drawString(swest ? "Sleep" : "Awake", 120, 180); } } if (now >= nextAlarm) { // The alarm widget should handle this one setTimeout(load, 1000); } else if (measure && now >= minAlarm && swest === false) { buzz(); measure = false; } }, 80); // 12.5Hz drawApp(); } else { E.showMessage('No Alarm'); setTimeout(load, 1000); } // BTN2 to menu, BTN3 to main setWatch(Bangle.showLauncher, BTN2, { repeat: false, edge: "falling" }); setWatch(() => load(), BTN3, { repeat: false, edge: "falling" });