diff --git a/imbuildings-imbuildings-office-occupancy-counter/CHANGELOG.md b/imbuildings-imbuildings-office-occupancy-counter/CHANGELOG.md new file mode 100644 index 00000000..9ec2b36e --- /dev/null +++ b/imbuildings-imbuildings-office-occupancy-counter/CHANGELOG.md @@ -0,0 +1,5 @@ +# Changelog + +## 1.0.0 - 2026-01-26 + +- First version of plugin \ No newline at end of file diff --git a/imbuildings-imbuildings-office-occupancy-counter/LICENSE.md b/imbuildings-imbuildings-office-occupancy-counter/LICENSE.md new file mode 100644 index 00000000..bffeef34 --- /dev/null +++ b/imbuildings-imbuildings-office-occupancy-counter/LICENSE.md @@ -0,0 +1,7 @@ +Copyright 2026 Thinger.io + +Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. + +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. \ No newline at end of file diff --git a/imbuildings-imbuildings-office-occupancy-counter/README.md b/imbuildings-imbuildings-office-occupancy-counter/README.md new file mode 100644 index 00000000..9d4daa4d --- /dev/null +++ b/imbuildings-imbuildings-office-occupancy-counter/README.md @@ -0,0 +1,70 @@ +# Office Occupancy Counter + +The Office Occupancy Counter is an infrared-based LoRaWAN sensor designed for measuring room and building occupancy. Manufactured by IMBUILDINGS B.V., this battery-powered device uses active infrared technology to accurately count people entering and exiting a space without capturing personal data or images, ensuring GDPR compliance. + +## Features + +- **Active Infrared Technology**: Consists of an IR transmitter and receiver for accurate bidirectional counting +- **Privacy-Friendly**: No camera or personal data collection +- **LoRaWAN Connectivity**: Class A LoRaWAN communication for long-range, low-power operation +- **Battery Powered**: Flexible installation without fixed power requirements +- **NFC Configuration**: Easy setup and configuration via NFC +- **Event-Based Transmission**: Data sent based on registered count values +- **Bidirectional Counting**: Determines direction of travel to provide separate in/out counts + +## Specifications + +| Parameter | Value | +|-----------|-------| +| Detection Distance | Up to 2 meters | +| Field of View | 27 degrees | +| Dimensions | 150 x 50 x 22 mm | +| Material | ABS | +| Frequency Bands | EU868, US915, AS923, AU915 | +| LoRaWAN Class | Class A | +| Certification | CE, FCC | +| Warranty | 2 years | + +## Use Cases + +- Office space utilization monitoring +- Building traffic analysis +- Energy management optimization +- Workspace availability tracking +- Air quality and HVAC optimization based on occupancy +- Libraries, universities, and public spaces + +## Thinger.io Integration + +### Requirements + +A LoRaWAN server is required to connect the Office Occupancy Counter to Thinger.io. Supported options include: + +- [The Things Stack](https://www.thethingsindustries.com/stack/) +- [LORIOT](https://loriot.io/) +- [ChirpStack](https://www.chirpstack.io/) + +The corresponding plugin for the selected LoRaWAN server must be installed in your Thinger.io instance. + +### Get Started + +#### Installation + +Look for the plugin in the [Thinger.io Plugin Store](https://marketplace.thinger.io/) and install it in your Thinger.io instance. Once the plugin is installed, a new Product will be created for this device. + +#### Configuration + +The Product is already preconfigured. Verify that the auto provision prefix matches the one selected in your LoRaWAN server plugin in Thinger.io, or modify it according to your requirements. + +#### Usage + +Start sending uplinks for autoprovisioning devices and buckets. + +This product also provides a predefined dashboard and downlinks. + +## Additional Resources + +- [IMBUILDINGS Official Product Page](https://imbuildings.com/products/office-occupancy-counter-lorawan/) +- [LoRa Alliance Marketplace](https://lora-alliance.org/marketplace/imbuildings-b-v/door-people-counter/) +- [The Things Network Device Repository](https://www.thethingsnetwork.org/device-repository/devices/imbuildings/imbuildings-office-occupancy-counter/) +- [Thinger.io Documentation](https://docs.thinger.io) \ No newline at end of file diff --git a/imbuildings-imbuildings-office-occupancy-counter/assets/imbuildings-office-occupancy-counter.png b/imbuildings-imbuildings-office-occupancy-counter/assets/imbuildings-office-occupancy-counter.png new file mode 100644 index 00000000..5c2eb4dd Binary files /dev/null and b/imbuildings-imbuildings-office-occupancy-counter/assets/imbuildings-office-occupancy-counter.png differ diff --git a/imbuildings-imbuildings-office-occupancy-counter/plugin.json b/imbuildings-imbuildings-office-occupancy-counter/plugin.json new file mode 100644 index 00000000..2e89a882 --- /dev/null +++ b/imbuildings-imbuildings-office-occupancy-counter/plugin.json @@ -0,0 +1,333 @@ +{ + "name": "imbuildings_office_occupancy_cou", + "version": "1.0.0", + "description": "Infrared based Office Occupancy Counter", + "author": "Thinger.io", + "license": "MIT", + "repository": { + "type": "git", + "url": "https://github.com/thinger-io/plugins.git", + "directory": "imbuildings-imbuildings-people-counter" + }, + "metadata": { + "name": "IMBUILDINGS-OFFICE-OCCUPANCY-COU", + "description": "Infrared based Office Occupancy Counter", + "image": "assets/imbuildings-people-counter-black.png", + "category": "devices", + "vendor": "imbuildings" + }, + "resources": { + "products": [ + { + "description": "Infrared based Office Occupancy Counter", + "enabled": true, + "name": "IMBUILDINGS-OFFICE-OCCUPANCY-COU", + "product": "imbuildings_office_occupancy_cou", + "profile": { + "api": { + "downlink": { + "enabled": true, + "handle_connectivity": false, + "request": { + "data": { + "path": "/downlink", + "payload": "{\n \"data\" : \"{{payload.data=\"\"}}\",\n \"port\" : {{payload.port=85}},\n \"priority\": {{payload.priority=3}},\n \"confirmed\" : {{payload.confirmed=false}},\n \"uplink\" : {{property.uplink}} \n}", + "payload_function": "", + "payload_type": "", + "plugin": "{{property.uplink.source}}", + "target": "plugin_endpoint" + } + } + }, + "uplink": { + "device_id_resolver": "getId", + "enabled": true, + "handle_connectivity": true, + "request": { + "data": { + "payload": "{{payload}}", + "payload_function": "", + "payload_type": "source_payload", + "resource_stream": "uplink", + "target": "resource_stream" + } + } + } + }, + "autoprovisions": { + "device_autoprovisioning": { + "config": { + "mode": "pattern", + "pattern": "imb-ooc-.*" + }, + "enabled": true + } + }, + "buckets": { + "device_data": { + "backend": "mongodb", + "data": { + "payload": "{{payload}}", + "payload_function": "parseOrDecodeIncomingData", + "payload_type": "source_payload", + "resource": "uplink", + "source": "resource", + "update": "events" + }, + "enabled": true, + "retention": { + "period": 6, + "unit": "months" + }, + "tags": [] + } + }, + "code": { + "code": "// Device Identifier Resolver configured in \"uplink\" API resource.\nfunction getId(payload) {\n return payload.deviceId;\n}\n\n// Custom payload processing function configured in \"device_data\" bucket.\nfunction parseOrDecodeIncomingData(payload) {\n // Use the existing decodeThingerUplink function to decode the payload\n return decodeThingerUplink(payload);\n}\n\nfunction decodeThingerUplink(thingerData) {\n // 0. If data has already been decoded, we will return it\n if (thingerData.decodedPayload) return thingerData.decodedPayload;\n \n // 1. Extract and Validate Input\n // We need 'payload' (hex string) and 'fPort' (integer)\n const hexPayload = thingerData.payload || \"\";\n const port = thingerData.fPort || 1;\n\n // 2. Convert Hex String to Byte Array\n const bytes = [];\n for (let i = 0; i < hexPayload.length; i += 2) {\n bytes.push(parseInt(hexPayload.substr(i, 2), 16));\n }\n\n // 3. Dynamic Function Detection and Execution\n \n // CASE A: (The Things Stack v3)\n if (typeof decodeUplink === 'function') {\n try {\n const input = {\n bytes: bytes,\n fPort: port\n };\n var result = decodeUplink(input);\n \n if (result.data) return result.data;\n\n return result; \n } catch (e) {\n console.error(\"Error inside decodeUplink:\", e);\n throw e;\n }\n }\n\n // CASE B: Legacy TTN (v2)\n else if (typeof Decoder === 'function') {\n try {\n return Decoder(bytes, port);\n } catch (e) {\n console.error(\"Error inside Decoder:\", e);\n throw e;\n }\n }\n\n // CASE C: No decoder found\n else {\n throw new Error(\"No compatible TTN decoder function (decodeUplink or Decoder) found in scope.\");\n }\n}\n\n\n// TTN decoder\nconst payloadTypes = {\n COMFORT_SENSOR: 0x01,\n PEOPLE_COUNTER: 0x02,\n BUTTONS: 0x03,\n PULSE_COUNTER: 0x04,\n TRACKER: 0x05,\n DOWNLINK: 0xF1\n}\n\nconst errorCode = {\n UNKNOWN_PAYLOAD: 1,\n EXPECTED_DOWNLINK_RESPONSE: 2,\n UNKNOWN_PAYLOAD_TYPE: 3,\n UNKNOWN_PAYLOAD_VARIANT: 4\n}\n\nconst settingIdentifier = {\n DEVICE_ID: 0x02,\n INTERVAL: 0x1E,\n EVENT_SETTING: 0x1F,\n PAYLOAD_DEFINITION: 0x20,\n HEARTBEAT_INTERVAL: 0x21,\n HEARTBEAT_PAYLOAD_DEFINITION: 0x22,\n DEVICE_ADDRESS: 0x2B,\n CONFIRMED_MESSAGES: 0x2F,\n FPORT: 0x33,\n FPORT_HEARTBEAT: 0x36,\n OOC_DISTANCE: 0x50,\n LED_INDICATION: 0x51,\n BUTTON_DELAY_TIME: 0x52,\n DEVICE_COMMANDS: 0xC8,\n ERRORS: 0xF0\n}\n\nconst command = {\n GET_PAYLOAD: 0x01,\n REJOIN: 0x02,\n COUNTER_PRESET: 0x03,\n SAVE: 0x04,\n BUTTON_PRESET: 0x05\n}\n\nfunction decodeUplink(input){\n let parsedData = {};\n\n if(!containsIMBHeader(input.bytes)){\n //When payload doesn't contain IMBuildings header\n //Assumes that payload is transmitted on specific recommended fport\n //e.g. payload type 2 variant 6 on FPort 26, type 2 variant 7 on FPort 27 and so on...\n switch(input.fPort){\n case 10:\n //Assumes data is response from downlink\n if(input.bytes[0] != payloadTypes.DOWNLINK || input.bytes[1] != 0x01) return getError(errorCode.EXPECTED_DOWNLINK_RESPONSE);\n parsedData.payload_type = payloadTypes.DOWNLINK;\n parsedData.payload_variant = 0x01;\n break;\n case 13:\n if(input.bytes.length != 7) return getError(errorCode.UNKNOWN_PAYLOAD);\n\n parsedData.payload_type = payloadTypes.COMFORT_SENSOR;\n parsedData.payload_variant = 3;\n break;\n case 26:\n if(input.bytes.length != 13) return getError(errorCode.UNKNOWN_PAYLOAD);\n\n parsedData.payload_type = payloadTypes.PEOPLE_COUNTER;\n parsedData.payload_variant = 6;\n break;\n case 27:\n if(input.bytes.length != 5) return getError(errorCode.UNKNOWN_PAYLOAD);\n\n parsedData.payload_type = payloadTypes.PEOPLE_COUNTER;\n parsedData.payload_variant = 7;\n break;\n case 28:\n if(input.bytes.length != 4) return getError(errorCode.UNKNOWN_PAYLOAD);\n\n parsedData.payload_type = payloadTypes.PEOPLE_COUNTER;\n parsedData.payload_variant = 8;\n break;\n case 33:\n if(input.bytes.length != 14) return getError(errorCode.UNKNOWN_PAYLOAD);\n parsedData.payload_type = payloadTypes.BUTTONS;\n parsedData.payload_variant = 3;\n break;\n case 34:\n if(input.bytes.length != 23) return getError(errorCode.UNKNOWN_PAYLOAD);\n parsedData.payload_type = payloadTypes.BUTTONS;\n parsedData.payload_variant = 4;\n break;\n default:\n return { errors: []};\n }\n }else{\n parsedData.payload_type = input.bytes[0];\n parsedData.payload_variant = input.bytes[1];\n parsedData.device_id = toHEXString(input.bytes, 2, 8)\n }\n\n switch(parsedData.payload_type){\n case payloadTypes.COMFORT_SENSOR: parseComfortSensor(input, parsedData); break;\n case payloadTypes.PEOPLE_COUNTER: parsePeopleCounter(input, parsedData); break;\n case payloadTypes.DOWNLINK: parsedData = parseDownlinkResponse(input.bytes); break;\n case payloadTypes.BUTTONS: parseButtons(input, parsedData); break;\n default:\n return getError(errorCode.UNKNOWN_PAYLOAD_TYPE);\n }\n\n return { data: parsedData}; \n\n}\n\nfunction containsIMBHeader(payload){\n if(payload[0] == payloadTypes.COMFORT_SENSOR && payload[1] == 0x03 && payload.length == 20) return true;\n if(payload[0] == payloadTypes.PEOPLE_COUNTER && payload[1] == 0x06 && payload.length == 23) return true;\n if(payload[0] == payloadTypes.PEOPLE_COUNTER && payload[1] == 0x07 && payload.length == 15) return true;\n if(payload[0] == payloadTypes.PEOPLE_COUNTER && payload[1] == 0x08 && payload.length == 14) return true;\n if(payload[0] == payloadTypes.BUTTONS && payload[1] == 0x03 && payload.length == 14) return true;\n if(payload[0] == payloadTypes.BUTTONS && payload[1] == 0x04 && payload.length == 23) return true;\n\n return false;\n}\n\nfunction parseComfortSensor(input, parsedData){\n switch(parsedData.payload_variant){\n case 0x03:\n parsedData.device_status = input.bytes[input.bytes.length - 10];\n parsedData.battery_voltage = readUInt16BE(input.bytes, input.bytes.length - 9) / 100;\n parsedData.temperature = readUInt16BE(input.bytes, input.bytes.length - 7) / 100;\n parsedData.humidity = readUInt16BE(input.bytes, input.bytes.length - 5) / 100;\n parsedData.CO2 = readUInt16BE(input.bytes, input.bytes.length - 3);\n parsedData.presence = (input.bytes[input.bytes.length - 1] == 1) ? true : false;\n break;\n }\n\n}\n\nfunction parsePeopleCounter(input, parsedData){\n switch(parsedData.payload_variant){\n case 0x06:\n parsedData.device_status = input.bytes[input.bytes.length - 13];\n parsedData.battery_voltage = readUInt16BE(input.bytes, input.bytes.length - 12) / 100;\n parsedData.counter_a = readUInt16BE(input.bytes, input.bytes.length - 10);\n parsedData.counter_b = readUInt16BE(input.bytes, input.bytes.length - 8);\n parsedData.sensor_status = input.bytes[input.bytes.length - 6];\n parsedData.total_counter_a = readUInt16BE(input.bytes, input.bytes.length - 5);\n parsedData.total_counter_b = readUInt16BE(input.bytes, input.bytes.length - 3);\n parsedData.payload_counter = input.bytes[input.bytes.length - 1];\n break;\n case 0x07:\n parsedData.sensor_status = input.bytes[input.bytes.length - 5];\n parsedData.total_counter_a = readUInt16BE(input.bytes, input.bytes.length - 4);\n parsedData.total_counter_b = readUInt16BE(input.bytes, input.bytes.length - 2);\n break;\n case 0x08:\n parsedData.device_status = input.bytes[input.bytes.length - 4];\n parsedData.battery_voltage = readUInt16BE(input.bytes, input.bytes.length - 3) / 100;\n parsedData.sensor_status = input.bytes[input.bytes.length - 1];\n break;\n }\n}\n\nfunction parseButtons(input, parsedData){\n switch(parsedData.payload_variant){\n case 0x03:\n parsedData.device_status = input.bytes[input.bytes.length - 4];\n parsedData.battery_voltage = readUInt16BE(input.bytes, input.bytes.length - 3) / 100;\n parsedData.button_pressed = (input.bytes[input.bytes.length - 1] != 0) ? true : false;\n parsedData.button = {\n a: (input.bytes[input.bytes.length - 1] & 0x01 == 0x01) ? true : false,\n b: (input.bytes[input.bytes.length - 1] & 0x02 == 0x02) ? true : false,\n c: (input.bytes[input.bytes.length - 1] & 0x04 == 0x04) ? true : false,\n d: (input.bytes[input.bytes.length - 1] & 0x08 == 0x08) ? true : false,\n e: (input.bytes[input.bytes.length - 1] & 0x10 == 0x10) ? true : false\n }\n break;\n case 0x04:\n parsedData.device_status = input.bytes[input.bytes.length - 13];\n parsedData.battery_voltage = readUInt16BE(input.bytes, input.bytes.length - 12) / 100;\n parsedData.button = {\n a: readUInt16BE(input.bytes, input.bytes.length - 10),\n b: readUInt16BE(input.bytes, input.bytes.length - 8),\n c: readUInt16BE(input.bytes, input.bytes.length - 6),\n d: readUInt16BE(input.bytes, input.bytes.length - 4),\n e: readUInt16BE(input.bytes, input.bytes.length - 2)\n }\n break;\n }\n}\n\nfunction decodeDownlink(input){\n if(input.fPort != 10){\n return { errors: ['Please use FPort 10 for downlink results']};\n }\n\n if(input.bytes[0] != 0xF1 || input.bytes[1] != 0x01){\n return { errors: ['Expected downlink payload']};\n }\n\n return {\n data: parseDownlinkResponse(input)\n }\n\n}\n\nfunction parseDownlinkResponse(payload){\n let parsedResponse = {};\n\n let i = 2;\n while( i < payload.length){\n switch(payload[i + 1]){\n case settingIdentifier.DEVICE_ID:\n parsedResponse.device_id = toHEXString(payload, i + 2, 8);\n break;\n case settingIdentifier.INTERVAL:\n parsedResponse.interval = payload[i + 2];\n break;\n case settingIdentifier.EVENT_SETTING:\n parsedResponse.event = {\n type: payload[i + 2],\n count: payload[i + 3],\n timeout: payload[i + 4]\n }\n break;\n case settingIdentifier.PAYLOAD_DEFINITION:\n parsedResponse.payload = {\n type: payload[i + 2],\n variant: payload[i + 3],\n header: (payload[i + 4] == 0x01) ? true : false\n }\n break;\n case settingIdentifier.HEARTBEAT_INTERVAL:\n if(parsedResponse.heartbeat === undefined){\n parsedResponse.heartbeat = {};\n }\n\n parsedResponse.heartbeat.interval = payload[i + 2];\n break;\n case settingIdentifier.HEARTBEAT_PAYLOAD_DEFINITION:\n if(parsedResponse.heartbeat === undefined){\n parsedResponse.heartbeat = {};\n }\n\n parsedResponse.heartbeat.payload = {\n type: payload[i + 2],\n variant: payload[i + 3],\n header: (payload[i + 4] == 0x01) ? true : false\n }\n break;\n case settingIdentifier.DEVICE_ADDRESS:\n parsedResponse.device_address = toHEXString(payload, i + 2, 4);\n break;\n case settingIdentifier.CONFIRMED_MESSAGES:\n parsedResponse.confirmed_messages = payload[i + 2];\n break;\n case settingIdentifier.FPORT:\n parsedResponse.fport = payload[i + 2];\n break;\n case settingIdentifier.FPORT_HEARTBEAT:\n if(parsedResponse.heartbeat === undefined){\n parsedResponse.heartbeat = {};\n }\n\n parsedResponse.heartbeat.fport = payload[i + 2];\n break;\n }\n\n i += payload[i];\n }\n\n return parsedResponse;\n}\n\nfunction encodeDownlink(input){\n let dl = [payloadTypes.DOWNLINK, 0x01];\n\n if(input.data.command !== undefined && input.data.command.rejoin !== undefined){\n if(input.data.command.rejoin === true){\n dl.push(0x03);\n dl.push(settingIdentifier.DEVICE_COMMANDS);\n dl.push(command.rejoin);\n }\n }\n\n //Counter reset currently implemented as reset (all zeros)\n if(input.data.command !== undefined && input.data.command.counter_preset !== undefined){\n dl.push(0x07);\n dl.push(settingIdentifier.DEVICE_COMMANDS);\n dl.push(command.COUNTER_PRESET);\n\n if(input.data.command.counter_preset.counter_a !== undefined && input.data.command.counter_preset.counter_b !== undefined){ \n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n }else{\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n }\n }\n\n //Button preset currently implemented as reset (all zeros)\n if(input.data.command !== undefined && input.data.command.button_preset !== undefined){\n dl.push(0x0D);\n dl.push(settingIdentifier.DEVICE_COMMANDS);\n dl.push(command.BUTTON_PRESET);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n dl.push(0x00);\n }\n\n if(input.data.interval !== undefined){\n if(input.data.interval == null){\n dl.push(0x02);\n dl.push(settingIdentifier.INTERVAL);\n }else{\n dl.push(0x03);\n dl.push(settingIdentifier.INTERVAL);\n dl.push(input.data.interval);\n }\n \n }\n\n if(input.data.event !== undefined && input.data.event.type !== undefined && input.data.event.count !== undefined && input.data.event.timeout !== undefined){\n dl.push(0x05);\n dl.push(settingIdentifier.EVENT_SETTING);\n dl.push(input.data.event.type);\n dl.push(input.data.event.count);\n dl.push(input.data.event.timeout);\n }\n\n if(input.data.payload !== undefined && input.data.payload.type !== undefined&& input.data.payload.variant !== undefined && input.data.payload.header !== undefined){\n dl.push(0x05);\n dl.push(settingIdentifier.PAYLOAD_DEFINITION);\n dl.push(input.data.payload.type);\n dl.push(input.data.payload.variant);\n dl.push((input.data.payload.header === true) ? 0x01 : 0x00);\n }\n\n if(input.data.fport !== undefined){\n dl.push(0x03);\n dl.push(settingIdentifier.FPORT);\n dl.push(input.data.fport);\n }\n\n if(input.data.heartbeat){\n if(input.data.heartbeat.interval !== undefined){\n dl.push(0x03);\n dl.push(settingIdentifier.HEARTBEAT_INTERVAL);\n dl.push(input.data.heartbeat.interval);\n }\n\n if(input.data.heartbeat.payload !== undefined && input.data.heartbeat.payload.type !== undefined && input.data.heartbeat.payload.variant !== undefined && input.data.heartbeat.payload.header !== undefined){\n dl.push(0x05);\n dl.push(settingIdentifier.HEARTBEAT_PAYLOAD_DEFINITION);\n dl.push(input.data.heartbeat.payload.type);\n dl.push(input.data.heartbeat.payload.variant);\n dl.push((input.data.heartbeat.payload.header === true) ? 0x01 : 0x00);\n }\n\n if(input.data.heartbeat.fport !== undefined){\n dl.push(0x03);\n dl.push(settingIdentifier.FPORT_HEARTBEAT);\n dl.push(input.data.heartbeat.fport);\n }\n }\n\n if(input.data.ooc_ignore_distance !== undefined && input.data.ooc_detection_distance !== undefined){\n if(input.data.ooc_detection_distance > 200) input.data.ooc_detection_distance = 200;\n if(input.data.ooc_ignore_distance > 200) input.data.ooc_ignore_distance = 200;\n dl.push(0x04);\n dl.push(settingIdentifier.OOC_DISTANCE);\n dl.push(input.data.ooc_ignore_distance);\n dl.push(input.data.ooc_detection_distance);\n }\n\n if(input.data.led_function !== undefined){\n dl.push(0x03);\n dl.push(settingIdentifier.LED_INDICATION);\n dl.push(input.data.led_function);\n }\n\n if(input.data.confirmed_messages !== undefined){\n dl.push(0x03);\n dl.push(settingIdentifier.CONFIRMED_MESSAGES);\n dl.push(input.data.confirmed_messages);\n }\n\n if(input.data.save !== undefined && input.data.save === true){\n dl.push(0x03);\n dl.push(settingIdentifier.SAVE);\n dl.push(command.save);\n }\n\n return {\n fPort: 10,\n bytes: dl\n };\n}\n\n//Helper functions\nfunction getError(code){\n switch(code){\n case errorCode.UNKNOWN_PAYLOAD: return { errors: ['Unable to detect correct payload. Please check your device configuration']};\n case errorCode.EXPECTED_DOWNLINK_RESPONSE: return { errors: ['Expected downlink reponse data on FPort 10. Please transmit downlinks on FPort 10']};\n case errorCode.UNKNOWN_PAYLOAD_TYPE: return { errors: ['Unknown payload type']};\n case errorCode.UNKNOWN_PAYLOAD_VARIANT: return { errors: ['Unknown payload variant']};\n }\n}\n\nfunction bcd(dec) {\n\treturn ((dec / 10) << 4) + (dec % 10);\n}\n\nfunction unbcd(bcd) {\n\treturn ((bcd >> 4) * 10) + bcd % 16;\n}\n\nfunction toHEXString(payload, index, length){\n var HEXString = '';\n\n for(var i = 0; i < length; i++){\n if(payload[index + i] < 16){\n HEXString = HEXString + '0';\n }\n HEXString = HEXString + payload[index + i].toString(16);\n }\n\n return HEXString;\n}\n\nfunction readInt16BE(payload, index){\n var int16 = (payload[index] << 8) + payload[++index];\n\n if(int16 & 0x8000){\n int16 = - (0x10000 - int16);\n }\n\n return int16;\n}\n\nfunction readUInt16BE(payload, index){\n return (payload[index] << 8) + payload[++index];\n}\n\nfunction readInt8(payload, index){\n var int8 = payload[index];\n\n if(int8 & 0x80){\n int8 = - (0x100 - int8);\n }\n\n return int8;\n}", + "environment": "javascript", + "storage": "", + "version": "1.0" + }, + "properties": { + "uplink": { + "data": { + "payload": "{{payload}}", + "payload_function": "", + "payload_type": "source_payload", + "resource": "uplink", + "source": "resource", + "update": "events" + }, + "default": { + "source": "value" + }, + "enabled": true + } + } + }, + "_resources": { + "properties": [ + { + "property": "dashboard", + "value": { + "tabs": [ + { + "name": "Occupancy Monitoring", + "widgets": [ + { + "layout": { + "col": 0, + "row": 0, + "sizeX": 12, + "sizeY": 10 + }, + "panel": { + "color": "#1976D2", + "currentColor": "#1976D2", + "showFullscreen": true, + "showOffline": { + "type": "last_sample" + }, + "subtitle": "Bi-directional people counter", + "title": "Occupancy Counters" + }, + "properties": { + "alignTimeSeries": true, + "dataAppend": false, + "options": "var options = {\n series: series,\n chart: {\n background: '#1976D2',\n toolbar: {\n show: 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