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Monitoring system 3D Models

Find the best Monitoring system 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Anonymous1774814844
Anonymous1772978166
Haz una caja para un monitoreo ambiental para eso 32 con los sensores de la imagen y de un módulo gps
Anonymous1774664707
Functions of FocusGuard: Arduino-Based Anti-“Tulala” Study Monitoring System Inactivity Detection Detects when the student is not moving for a certain period using sensors. This helps identify loss of focus. Drowsiness Monitoring Recognizes possible sleepiness based on long inactivity, helping prevent dozing off while studying. Vibration Alert System Uses a vibration motor to gently alert the student to wake up or refocus. Motivational Message Display Shows encouraging messages on the LCD screen to keep the student motivated. Buzzer Notification Produces a sound alert if the student stays inactive too long. Study Timer Function Tracks study time and break intervals to promote better time management. Manual and Automatic Mode Allows the user to choose between: Automatic monitoring Manual control Portable and Energy-Efficient Design Compact and battery-powered, making it easy to use anywhere (desk, room, library).
Anonymous1773279791
Anonymous1769094065
TITLE: FocusGuard: Arduino-Based Anti-“Tulala” Study Monitoring System Purpose of the Study The purpose of the FocusGuard: Arduino-Based Anti-“Tulala” Study Monitoring System is to help students maintain focus during study sessions by detecting inactivity, drowsiness, or lack of movement. The system uses sensors connected to an Arduino to monitor user activity and provide alerts such as vibration and motivational messages. This innovation aims to improve concentration, enhance productivity, and promote better study habits through real-time feedback. Functions and Features 1.Inactivity Detection The system uses motion or infrared sensors to detect when the student is inactive or not moving. 2.Drowsiness Monitoring Identifies possible sleepiness based on prolonged inactivity. 3.Vibration Alert System A vibration motor alerts the user to regain focus when inactivity is detected. 4.Motivational Message Display An LCD i2c screen displays encouraging messages to motivate the student. 5.Buzze
Anonymous1773279791
can you make me a 3d model animation based in this with table "TITLE: FocusGuard: Arduino-Based Anti-“Tulala” Study Monitoring System Purpose of the Study The purpose of the FocusGuard: Arduino-Based Anti-“Tulala” Study Monitoring System is to help students maintain focus during study sessions by detecting inactivity, drowsiness, or lack of movement. The system uses sensors connected to an Arduino to monitor user activity and provide alerts such as vibration and motivational messages. This innovation aims to improve concentration, enhance productivity, and promote better study habits through real-time feedback. Functions and Features 1.Inactivity Detection The system uses motion or infrared sensors to detect when the student is inactive or not moving. 2.Drowsiness Monitoring Identifies possible sleepiness based on prolonged inactivity. 3.Vibration Alert System A vibration motor alerts the user to regain focus when inactivity is detected. 4.Motivational Message Display An LCD i2c screen displays encouraging m
Anonymous1773279791
以参考图为基础,重绘一张高端企业级“电梯智能监测与云端管理系统架构示意图”,采用3D等轴测/isometric视角。中心是一套真实可信、结构完整、局部透明剖视的智能电梯系统,包含:井道框架、导轨、钢丝绳、曳引机、对重、轿厢、门机、控制柜、传感器、边缘计算终端、通信网关,机械逻辑准确,具备数字孪生展示感。 重点:禁止整张图只有单一银灰金属质感。 必须体现丰富材质层次: 井道框架:浅银灰拉丝金属 导轨/机械结构:深灰、石墨灰钢件 轿厢:大面积钢化玻璃+局部金属包边 控制柜/边缘终端/网关:白色或浅灰工业电子外壳 传感器/摄像头:白色智能硬件风格 数据节点与连线:科技蓝、青蓝半透明发光 云平台:蓝白半透明UI卡片 整体配色:白、浅灰、银灰、深灰、浅蓝灰、科技蓝,高级克制,不赛博朋克,不花哨。要求形成金属、玻璃、塑料、电子模块、UI面板的明显差异,避免所有部件统一金属着色。机械部分更深,外壳更亮,电子模块更白,数据元素更蓝。 背景为白色科技展厅/企业发布会展示空间,包含浅灰渐变背景、轻微地面反射、柔和体积光、少量空间投影、干净留白,避免纯白空背景。画面气质应像工业产品广告渲染 + 企业SaaS解决方案KV + 信息图,而不是单纯机械爆炸图。 画面需加入企业级中文信息框,白底圆角卡片、蓝色标题、深灰正文、轻阴影,围绕主体形成视觉节奏。内容包括: 智能摄像头:候梯区画面采集,仅提取人体轮廓与运动轨迹,不采集人脸 边缘计算终端:实时推理 轿厢状态传感器:采集运行楼层、开关门状态、载重数据 通信网关:汇聚数据上传云端,不改动原有控制系统 SaaS云管理平台:设备监控、数据统计、告警推送、物业端可视化看板 数据流向 用蓝色虚线箭头、发光节点连接三层架构:感知层、边缘层、平台层。右上方设置更轻、更UI化的云平台区域。整体要求材质丰富、层次分明、商业视觉完整、信息密度高但不杂乱、超清写实、企业级高级感。 负面约束: 不要全图统一银色金属;不要强镜面;不要纯白空背景;不要只有机械没有UI;不要赛博朋克霓虹;不要卡通插画感;不要低模;不要杂乱线条特效;不要全图只有银灰+蓝光两种元素。 附加强化句: 优先生成丰富材质层次和企业级视觉节奏,不要把整套电梯系统统一渲染成单一银灰金属模型。
Anonymous1764080493
以参考图为基础,重绘一张高端企业级“电梯智能监测与云端管理系统架构示意图”,采用3D等轴测/isometric视角。中心是一套真实可信、结构完整、局部透明剖视的智能电梯系统,包含:井道框架、导轨、钢丝绳、曳引机、对重、轿厢、门机、控制柜、传感器、边缘计算终端、通信网关,机械逻辑准确,具备数字孪生展示感。 重点:禁止整张图只有单一银灰金属质感。 必须体现丰富材质层次: 井道框架:浅银灰拉丝金属 导轨/机械结构:深灰、石墨灰钢件 轿厢:大面积钢化玻璃+局部金属包边 控制柜/边缘终端/网关:白色或浅灰工业电子外壳 传感器/摄像头:白色智能硬件风格 数据节点与连线:科技蓝、青蓝半透明发光 云平台:蓝白半透明UI卡片 整体配色:白、浅灰、银灰、深灰、浅蓝灰、科技蓝,高级克制,不赛博朋克,不花哨。要求形成金属、玻璃、塑料、电子模块、UI面板的明显差异,避免所有部件统一金属着色。机械部分更深,外壳更亮,电子模块更白,数据元素更蓝。 背景为白色科技展厅/企业发布会展示空间,包含浅灰渐变背景、轻微地面反射、柔和体积光、少量空间投影、干净留白,避免纯白空背景。画面气质应像工业产品广告渲染 + 企业SaaS解决方案KV + 信息图,而不是单纯机械爆炸图。 画面需加入企业级中文信息框,白底圆角卡片、蓝色标题、深灰正文、轻阴影,围绕主体形成视觉节奏。内容包括: 智能摄像头:候梯区画面采集,仅提取人体轮廓与运动轨迹,不采集人脸 边缘计算终端:实时推理 轿厢状态传感器:采集运行楼层、开关门状态、载重数据 通信网关:汇聚数据上传云端,不改动原有控制系统 SaaS云管理平台:设备监控、数据统计、告警推送、物业端可视化看板 数据流向 用蓝色虚线箭头、发光节点连接三层架构:感知层、边缘层、平台层。右上方设置更轻、更UI化的云平台区域。整体要求材质丰富、层次分明、商业视觉完整、信息密度高但不杂乱、超清写实、企业级高级感。 负面约束: 不要全图统一银色金属;不要强镜面;不要纯白空背景;不要只有机械没有UI;不要赛博朋克霓虹;不要卡通插画感;不要低模;不要杂乱线条特效;不要全图只有银灰+蓝光两种元素。 附加强化句: 优先生成丰富材质层次和企业级视觉节奏,不要把整套电梯系统统一渲染成单一银灰金属模型。
Anonymous1764080493
Anonymous1749713686
- 场景:小型监狱 监控值班室,比例1:1还原现实尺寸 - 结构: - 墙体:白色哑光,天花板+立柱结构完整 - 地面:浅灰色方格瓷砖,黑色踢脚线 - 门窗:红棕色木门(右侧)、灰色门(后墙)、左侧深色门 - 家具设备: - 灰色监控操作台(带双屏显示器) - 两把木质扶手+黑色坐垫办公椅 - 后墙两块蓝色制度牌(保留文字区域,可简化为纹理) - 技术要求: - 模型拓扑简洁,面数控制在10k以内 - 材质:基础PBR材质,支持Three.js MeshStandardMaterial - 格式:GLB,包含完整UV和纹理贴图 - 物体分组:墙体、门、家具、设备分别命名分组,便于后续交互控制(如展开/隐藏楼层)
Anonymous1773046166
Anonymous1772501877
стройство AquaLoop — это компактная система для контроля воды в ирригационных каналах. Оно состоит из датчика уровня воды, датчика потока воды, небольшого электронного контроллера, солнечной панели и передатчика данных. Датчики устанавливаются на стенке или дне канала и измеряют уровень и скорость воды. Контроллер собирает информацию с датчиков и обрабатывает её. Солнечная панель обеспечивает устройство энергией, поэтому оно может работать без электрической сети. Передатчик отправляет данные на телефон или компьютер через интернет или беспроводную связь. Благодаря этому фермеры или службы управления водой могут видеть количество воды в канале и контролировать её использование, чтобы уменьшить потери воды и распределять ресурсы более эффективно. 💧⚙️📡
Anonymous1771160737
Anonymous1751986516
Anonymous1772375445
Anonymous1773117666
Anonymous1773169849
Ilustração técnica em 3D realista de um sistema automatizado de monitoramento do nível de água em piezômetro. A imagem mostra um corte transversal do solo revelando um poço profundo. Dentro do poço há um cabo longo descendo, na ponta do cabo existe um equipamento cilíndrico metálico com dois sensores, um sensor na parte inferior e outro sensor na parte superior. O sensor inferior detecta quando toca a água e o sensor superior detecta quando a água sobe. Na superfície do solo existe um sistema mecânico com um motor elétrico e um grande carretel/rolamento enrolando o cabo. O carretel possui engrenagens com pinos que acionam pequenas alavancas, representando a medição precisa de 1 cm por movimento do cabo (indicando +1 cm ou -1 cm). Ao lado do sistema há uma antena LoRa com um pequeno painel solar, transmitindo dados sem fio. Em outro canto da imagem aparece um computador com um dashboard digital, mostrando uma tabela e um gráfico do nível de água do poço em tempo real, exibindo algo como “Poço 01 – Nível de
Anonymous1772038334
Enter invite code to get credits!