import React, { useState } from 'react'; import { motion, AnimatePresence } from 'motion/react'; import { Activity, ShieldCheck, Zap, Server, ChevronRight, Database, Cpu, Cloud, Truck, Factory, Building, Target, Leaf, AlertTriangle, Wind, Thermometer, Gauge, Navigation, Settings, Battery, Link2, Share2, Search, LineChart, BarChart, Radio, HardDrive, Network, MapPin, CheckCircle2, Factory as FactoryIcon, ShieldAlert, Workflow, Maximize2, Eye, Sliders, Flame, Compass, RefreshCw } from 'lucide-react'; // --- Import assets --- import oneossBoxImage from './assets/images/oneoss_box_1779852084134.png'; import oneossSideFacet from './assets/images/oneoss_side_facet_1779862455874.png'; import oneossTopFacet from './assets/images/oneos_top_facet_1779864912925.png'; import scenarioFleetImage from './assets/images/scenario_fleet_1779863559233.png'; import scenarioStationImage from './assets/images/scenario_station_1779863574991.png'; import scenarioDatacenterImage from './assets/images/scenario_datacenter_1779863590420.png'; // --- Reusable Compact Architecture Component --- const CompactArchCard = ({ title, children, className = "", headerClass = "bg-[#121212]" }: { title?: React.ReactNode, children: React.ReactNode, className?: string, headerClass?: string }) => (
{/* Decorative micro LED accent on card edge */}
{title && (
{title}
)}
{children}
); const CompactArchList = ({ items }: { items: { icon?: any, text: string, textEn?: string }[] }) => ( ); type StylePreset = 'cyan' | 'amber' | 'crimson'; interface PerspectiveFacet { id: string; nameCn: string; nameEn: string; image: string; descriptionCn: string; descriptionEn: string; specs: { label: string; value: string }[]; } export default function App() { const [activeTab, setActiveTab] = useState<'product_intro' | 'entity_diagram' | 'architecture' | 'scenarios'>('product_intro'); // Custom futuristic theme/preset selector state const [styleTheme, setStyleTheme] = useState('cyan'); // Interactive Perspective Switcher State const [activeFacet, setActiveFacet] = useState('top'); // Interactive Carbon Database Tab State const [dbTab, setDbTab] = useState<'factors' | 'methodologies'>('factors'); const themes = { cyan: { accent: '#00F2FF', glow: 'shadow-[0_0_20px_rgba(0,242,255,0.25)]', border: 'border-[#00F2FF]/30', textAccent: 'text-[#00F2FF]', bgAccent: 'bg-[#00F2FF]', borderAccent: 'border-[#00F2FF]', gradient: 'from-[#00F2FF] to-[#0066FF]', radialGlow: 'bg-[#00F2FF]/5', nameCn: '极光霓虹', nameEn: 'Aurora Cyan' }, amber: { accent: '#FBBF24', glow: 'shadow-[0_0_20px_rgba(251,191,36,0.25)]', border: 'border-[#FBBF24]/30', textAccent: 'text-[#FBBF24]', bgAccent: 'bg-[#FBBF24]', borderAccent: 'border-[#FBBF24]', gradient: 'from-[#FBBF24] to-[#D97706]', radialGlow: 'bg-[#FBBF24]/5', nameCn: '航天鎏金', nameEn: 'Aerospace Amber' }, crimson: { accent: '#EF4444', glow: 'shadow-[0_0_20px_rgba(239,68,68,0.25)]', border: 'border-[#EF4444]/30', textAccent: 'text-[#EF4444]', bgAccent: 'bg-[#EF4444]', borderAccent: 'border-[#EF4444]', gradient: 'from-[#EF4444] to-[#991B1B]', radialGlow: 'bg-[#EF4444]/5', nameCn: '聚变红核', nameEn: 'Fusion Crimson' } }; const activeTheme = themes[styleTheme]; const facets: PerspectiveFacet[] = [ { id: 'iso', nameCn: '立体主视图', nameEn: 'Isometric View', image: oneossBoxImage, descriptionCn: '全铝阳极氧化磨砂太空灰机壳,线条凝练锐利,边缘搭载可变色长条形高精度脉冲 LED 光斑状态指示器,彰显现代工业极简美学。', descriptionEn: 'Anodized sandblasted space-gray aluminum casing with razor-sharp geometric contours, presenting active pulsating high-frequency pulse status LEDs.', specs: [ { label: 'Chassis Material', value: 'Anodized Aluminum' }, { label: 'Ingress Rating', value: 'IP67 Waterproof' }, { label: 'Operating Temp', value: '-40°C to +85°C' } ] }, { id: 'side', nameCn: '连接器切面', nameEn: 'Connector Detail', image: oneossSideFacet, descriptionCn: '机身侧部配置重工业级 M12 耐高负载密封金属插座,保障信号链路与大电流供应在多端复杂极端环境下的无损传输。', descriptionEn: 'High-load heavy industrial M12 sealed metal connectors designed to safeguard physical connectivity under extreme multi-node environments.', specs: [ { label: 'Interface Type', value: 'M12 Industrial A-Coded' }, { label: 'Contact Finish', value: 'Gold-Plated/Copper Alloy' }, { label: 'Coupling Method', value: 'Threaded Locking Joint' } ] }, { id: 'top', nameCn: '顶板盖透视图', nameEn: 'Holographic Deck', image: oneossTopFacet, descriptionCn: '半透明暗色钢化玻璃盖板板底饰有沉金电路纹章,结合内部微弱背光结构,完美融合未来感科技韵味。', descriptionEn: 'High-strength semi-translucent dark tempered glass with complex circuit tracing architecture embedded under subtle microchips array.', specs: [ { label: 'Panel Type', value: 'Corning Gorilla Glass v5' }, { label: 'Thermal Shielding', value: 'Aerogel Thermal Layer' }, { label: 'Chassis Pressure', value: 'Internal Relief Valves' } ] } ]; const selectedFacet = facets.find(f => f.id === activeFacet) || facets[0]; return (
{/* 1. Header Navigation */}
ONEOS LNBOX AI COMPLIANT CARBON FACTOR & SINK MATRIX
{/* Tab & Language Header Selector */}
{/* 实体介绍图 Tab is temporarily hidden per user request */} {/* */}
{/* Theme Preset Selector */}
Style Matrix: {(['cyan', 'amber', 'crimson'] as StylePreset[]).map((themeName) => { const t = themes[themeName]; return ( ); })}
{/* 2. Main Workspace */}
{/* Futuristic Ambient Grid Overlay */}
{/* ========================================================================= TAB: PRODUCT INTRO ("产品介绍") ========================================================================= */} {activeTab === 'product_intro' && ( {/* LEFT INTRODUCTORY PANEL (Bilingual, Rich Copy) */}
{/* Style Palette Mobile Hotbar */}
切换科技氛围
{(['cyan', 'amber', 'crimson'] as StylePreset[]).map((themeName) => { const t = themes[themeName]; return ( ); })}
{/* Small tag */}
ONEOS INDUSTRIAL V2.0 TERMINAL PROTOCOL
{/* Title Matrix */}

AI Carbon Factor &
Hydrogen Safety Box

LNBox AI 碳因子与碳汇智能终端

{/* Copy Block in Chinese & English */}

LNBox 是连接氢能车辆与 OneOS AI 平台的车载智能网关,把车辆运行、可信里程、氢控状态、能耗和路线数据,转化为碳因子核算、碳汇资产识别、氢安全预警、续航预测和能源 AI 决策能力。

{/* Feature Pillars Highlights (Bilingual) */}
AI 碳因子引擎

基于车型、路线、里程、能耗和场景数据,自动匹配碳因子并生成核算结果。

AI CARBON FACTOR INFERENCE ENGINE
碳汇资产识别

将车辆减排、绿色运输和氢能替代数据沉淀为可追溯、可展示的碳汇资产。

CARBON SINK ASSET RECOGNITION
能源 AI 智能调度

结合余氢、路线、加氢站资源 and 碳成本,支撑续航预测、补能决策和低碳调度。

AUTONOMOUS ENERGY AI DISPATCH
氢能安全可信底座

监测氢气泄漏、压力、温度与阀控状态,为碳资产场景提供安全可信上下文。

HYDROGEN SAFETY TELEMETRY NODE
{/* RIGHT DISPLAY PANEL (Pure Hardware Display with Holographic Scanning Top Plat Cover) */}
HEURISTIC ANALYTICS: ACTIVE SCANNING
Holographic Deck Perspective

OneOS 顶板盖透视图

{/* Glowing background gradient reflecting thematic colors */}
{/* Brand Identifier */}
LN
ONEOS
{/* Rotating Radar / Target scanner rings behind the main top cover plate */}
{/* Laser Sweeping Scanner Line */} {/* Highly interactive cover view image with floating, tilt-breathing and hover scale */} {/* Status annotations overlaid inside card corner borders */}
RADAR_SYS: LOCKED
FACET_REFR: 0X4FA3
SPECS: GLASS v5 PORT PANEL
SHIELDING: NANO-AEROGEL
MODEL_NO: LNBOX-TOP-V2
DECK_HOLOGRAPHIC: ACTIVE
)} {/* ========================================================================= TAB: ENTITY DIAGRAM ("实体介绍图") ========================================================================= */} {activeTab === 'entity_diagram' && ( {/* LEFT INTRODUCTORY PANEL (Technical Specifications) */}
PHYSICAL HARDWARE ASSEMBLY SPECS

实体物性与物性参数

LNBox 车载端具备高难度恶劣物理环境下的极高保障标准:外壳选用全阳极氧化太空铝,接口件选用耐振动重工业螺纹锁定 joint,配合内置气凝胶保温层,满足宽温极限和全天候低碳调度场景监测。

物理属性一览表 / HARDWARE ATTRIBUTES
{[ { key: '整机尺寸 / Dimensions', value: '185mm x 140mm x 55mm' }, { key: '防尘防水级别 / Ingress Rating', value: 'IP67 Heavy Waterproof Seal' }, { key: '宽温工作环境 / Operating Temp', value: '-40°C to +85°C Aerospace Standard' }, { key: '连接插座规格 / Interface Connectors', value: 'M12 Heavy Industrial Thread Locking' }, { key: '外壳制作工艺 / Chassis Engineering', value: 'Anodized Space-Gray Aluminum sandblasing' }, { key: '内置热物理屏蔽 / Thermal Protection', value: 'Nano-Aerogel Ultra-thin Thermal Shielding' }, ].map((item, idx) => (
{item.key} {item.value}
))}
{/* RIGHT VIEWPOINT SWITCHER */}
DECKS MATRIX ACTIVE: {selectedFacet.nameEn}
Live Render Viewpoint
{selectedFacet.nameCn} / {selectedFacet.nameEn}
LN
ONEOS
OCTANE_RENDER_V6_HD GRID_LOCK_ALGN [OK]
{/* Micro specs descriptors */}
{selectedFacet.specs.map((item, idx) => (
{item.label} {item.value}
))}
{/* Micro Thumbnail Selector at the bottom */}
{facets.map((facet) => { const isSelected = activeFacet === facet.id; return ( ); })}
)} {/* ========================================================================= TAB: CORE LOGICAL ARCHITECTURE FLOW (Bilingual & Exactly Matching Attached Diagram) ========================================================================= */} {activeTab === 'architecture' && ( {/* Architecture Title block with both ENG and CN */}
Logical Data Flow and System Infrastructure

OneOS AI 氢能盒子 - 核心逻辑架构图

BI-LINGUAL SCHEMATIC FLOW CHART • 100% FULL-SCREEN COCKPIT

{/* Exact column layout with custom bidirectional connectors */}
{/* COLUMN 1: 数据采集层 (Data Capture Layer, ~18% width) */}
数据采集层
Data Capture Matrix
车辆/设备数据
} className="flex-[1.3_1.3_0%]"> 环境数据
} className="flex-1">
{/* FLOW CONNECTOR 1: Left to Center (Capture <-> AI Core) */}
{/* Left/Top arrowhead */} {/* Glowing vertical path */}
{/* Right/Bottom arrowhead */}
{/* COLUMN 2: ONEOS AI 氢能盒子 (Intelligent Core Box Node, Flex-1) */}
{/* Glowing halo behind box node */}
OneOS AI 氢能盒子
LNbox Core Hardware Hub
{/* 3-Column Internal Layout: Modules - Central Hardware - Modules */}
{/* Left Sub-column: Safety & Carbon */}
氢安全管理模块
} className="flex-1"> 碳因子管理模块
} className="flex-1">
{/* Central Sub-column: Interactive Hardware Showcase */}
{/* Interactive circuit-like subtle glow */}
OneOS AI Hardware cover plate {/* Custom status overlays */}
LN
ONEOS
{/* Small operational thumbnails */}
Top Facet
Side Facet
Full Box
{/* Right Sub-column: AI Analyzers & Device Management */}
AI分析决策模块
} className="flex-1"> 设备管理模块
} className="flex-1">
{/* Vertical flow connector pointing up from Data Security to Central Hardware (Modification 1) */}
{/* Left empty */}
{/* Arrowhead pointing UP */} {/* Vertical line with glow */}
{/* Right empty */}
{/* Stretching bottom card: 数据安全模块 */}
数据安全模块 (Data Security Framework)
数据加密 AES/ECC
权限管理 RBAC Mode
安全存储 Enclave Vault
可信通信 TLS Tunneling
{/* FLOW CONNECTOR 2: Center to Cloud (AI Core <-> Cloud AIoT) */}
{/* COLUMN 3: OneOS 云平台 (OneOS AIoT Cloud Platform, ~18% width) */}
OneOS 云平台
Core AIoT Cloud
OneOS AIoT 平台
} className="flex-1"> {/* Futuristic Large Cloud core visualization panel (Modification 2) */}
{/* Abstract grid matrix */}
{/* Pulsing orbital rings */}
{/* Main cloud glowing structure */}
{/* Description & name */} OneOS Cloud Hub Omni AIoT Control Core {/* Flowing particle stream */}
{/* FLOW CONNECTOR 3: Cloud to Applications (Cloud AIoT <-> Scenario Scopes) */}
{/* COLUMN 4: 应用场景 (Operational Scenarios Layer, ~18% width) */}
应用场景
Operational Scenarios
{/* Scenario 1: Fleet Operations (Modification 3) */}
氢能车队运营 Fleet
{/* Horizontal split body */}
{/* Left: Thumbnail */}
Fleet
{/* Right: Combined bullet checks */}
车辆监控 • 运营调度
能耗管理 • 安全预警
{/* Scenario 2: Refueling Station Operations (Modification 3) */}
加氢站运营 Station
{/* Horizontal split body */}
{/* Left: Thumbnail */}
Station
{/* Right: Combined bullet checks */}
氢源调度 • 加氢优化
库存管理 • 安全监管
{/* Scenario 3: Energy & Data Center Computes (Modification 3) */}
能源/算力中心 Center
{/* Horizontal split body */}
{/* Left: Thumbnail */}
Data Center
{/* Right: Combined bullet checks */}
能耗优化 • 安全监测
运维管理 • 智能决策
{/* Bottom value matrix (价值输出层 中英双语 - Extremely Compact Layout for Full screen) */}
价值输出层
VALUE MATRIX SYSTEM
{[ { title: '强化安全减灾', sub: '极速预警防爆泄漏风险', icon: ShieldCheck, subEn: 'RISK CONTROL' }, { title: '显著降本增益', sub: '优化气耗能耗控制开支', icon: Search, subEn: 'COST MINIMIZE' }, { title: '多端业务提效', sub: '云端统筹各端负载配置', icon: Activity, subEn: 'EFFICIENT ROUTING' }, { title: '绿氢数据资产', sub: '实时认证双碳属性归集', icon: Leaf, subEn: 'CARBON CERTIFIED' }, { title: 'AI边算一体化', sub: '全面释放物联数据潜能', icon: LineChart, subEn: 'DATA ASSET INFERENCE' }, ].map((val, i) => { const Icon = val.icon; return (
{val.title} {val.sub} {val.subEn}
); })}
)} {/* ========================================================================= TAB: REAL-WORLD TELEMETRY SCENARIOS ("真实数据场景") ========================================================================= */} {activeTab === 'scenarios' && ( {/* Title Section */}
Real-time Industrial Telemetry & Carbon Sink Assurance Metrics

真实数据场景: 原始数据转为碳资产的过程

LNBOX TELEMETRY LOGS → ONEOS AI INFERENCE COCKPIT

{/* 3-Column Scenario Cards Grid */}
{/* Scenario 01 */}
{/* Visual card header image */}
Fleet Delivery Scenario
SCENARIO 01 / COLD-CHAIN 氢能冷链车城配
{/* Card Content */}
LNBox 原始采集数据

可信行驶里程 85.3 km、 车载消耗氢气量 8.0 kg、 氢瓶压力 28.5 MPa、 冷链车厢温度 4.2°C

OneOS 系统计算决策

自动匹配并调用碳因子 3.0927 kgCO2/kg 氢气, 精确计算可信对冲的二氧化碳减排替代量为 24.74 kgCO2e, 数据流已归档并写入 OneOS 绿氢可信碳账户,支持多区域核算方法学扩展。

{/* Indicators Table */}
{[ { labelCn: '氢消耗碳因子', labelEn: 'H2 CARBON FACTOR', value: '3.0927 kgCO2/kg', formula: 'E_factor = 3.0927', tooltip: '对应方法学发布的绿氢替代汽柴油碳排放规则,代表消耗每公斤氢气所能减免替代的传统燃油车温室气体克排因子值,支持多区域规则动态映射扩展。' }, { labelCn: '二氧化碳减排量', labelEn: 'CO2 REDUCTION', value: '24.74 kgCO2e', formula: 'CO2_reduced = H2_consumed (8.0 kg) × 3.0927', tooltip: '由OneOS可信核算,消耗氢气 8.0 kg 理论替代燃油卡车的温室气体排放,计算基于权威减排测算方法学并支持后期多维度核算规则的通用扩展。' }, { labelCn: '百公里物理排放', labelEn: 'EMISSION/100KM', value: '6.1854 kg', formula: 'E_100km = 2.0 kg/100km × 3.0927', tooltip: '碳因子库中 4.5吨轻型货车百公里二氧化碳物理参考排放。计算公式:氢耗(标准2.0 kg/100km)× 碳因子,支持依据车辆型号差异进行高精度动态配置。' }, { labelCn: '核证确权状态', labelEn: 'TRACE STATUS', value: '核定完成 / 预备上链', formula: 'Chain_State = "Ready_For_Ledger"', tooltip: '当前已由OneOS平台引擎完成设备端高可信原始核算、哈希闭环与存证落底,配有标准化区块链对外接口,支持对公信减排平台的无缝扩展对接。' }, ].map((m, i) => (
{m.labelCn} {m.labelEn} {m.value} {/* Interactive Tooltip Card */}
{m.labelCn} · 真实逻辑 {m.labelEn}
算法公式/测算逻辑: {m.formula}
生成说明:

{m.tooltip}

{/* Triangle Arrow */}
))}
{/* Scenario 02 */}
{/* Visual card header image */}
Station Refueling Dispatch Scenario
SCENARIO 02 / HYDROGEN DISPATCH 加氢站补能调度
{/* Card Content */}
LNBox 原始采集数据

当前地理坐标、电池剩余SOC量、 氢气瓶残压值 2.4 MPa、 当前剩余续航 168 km、 任务预计运输终点。

OneOS AI 生成决策

计算推荐最优补能站点 S2 加氢站, 预计 13km/20分钟 到达, 补能调度优先级判为 P2 (高), 自动下发避堵低碳进站补氢规划路线。

{/* Indicators Table */}
{[ { labelCn: '当前剩余续航', labelEn: 'RANGE REMAIN', value: '168 km', formula: 'R_remain = 残余氢量(kg) × 额定整车氢效比例', tooltip: '利用储氢瓶残压传感器采集的可用低气压(如当前2.4 MPa),计算折损率并得出可用氢燃料质量,乘以车载电池综合动力效率,给出保守的剩余安全续航公里数。' }, { labelCn: '预计到达时效', labelEn: 'STATION EST.', value: '13km / 20 min', formula: 'ETA = f(高精度图层拓扑, 城区车辆时速因子)', tooltip: '将实时GPS坐标和地图路径分析绑定。计算公式:预计到达时间 = 高德物理路径至S2加氢站距离 (13 km) / 结合实时城区拥堵和红绿灯预测的平均速度,测定为20分钟。' }, { labelCn: '调度建议站点', labelEn: 'STATION ADVICE', value: 'Station S2', formula: 'S_score = f(预计等候时间, 加氢价格, 里程氢耗)', tooltip: '云端多指标评估打分。对比本网络内的加氢站负荷,S2站当前队列少(等候约6分钟),加氢机负荷利用率好、运氢损耗低,加权算出综合推荐指数最高。' }, { labelCn: '动态调度等级', labelEn: 'DISPATCH PRI', value: 'P2 High / 高', formula: 'Priority = (R_remain < 150 km且气压极低 ? P2 : P4)', tooltip: '安全等级触发阀值器。由于氢气瓶残压极低、在保供城配干线段可能发生抛锚,云端算法自动将任务补能调优级提升至 P2 (高级),以自动调度资源保障车辆补能。' }, ].map((m, i) => (
{m.labelCn} {m.labelEn} {m.value} {/* Interactive Tooltip Card */}
{m.labelCn} · 取值逻辑 {m.labelEn}
算法公式/测算逻辑: {m.formula}
生成说明:

{m.tooltip}

{/* Triangle Arrow */}
))}
{/* Scenario 03 */}
{/* Visual card header image */}
Carbon Ledger Scenario
SCENARIO 03 / ESG TRUST 碳汇资产核算与披露
{/* Card Content */}
LNBox 原始采集数据

安全可信网关 Box ID、车辆唯一样本 ID、 可信核算行驶轨迹、低碳氢燃料替代高位温室气体燃油量、 车辆与云端双向时间锁定同步记录(防篡改校验码)。

OneOS AI 生成决策

自动入账并归集绿氢碳汇资产分类凭证编号 Ledger-0602-001, 形成防篡改资产台账,支持零人工干预的 ESG 自助信息公开与披露。

{/* Indicators Table */}
{[ { labelCn: 'ESG信披凭证', labelEn: 'ESG REPORT', value: 'Ledger-001', formula: 'Serial_No = ID_Ledger(0602-001)', tooltip: '根据国际ISSB及TCFD框架自动对应、生成的ESG碳权信披台账审计流水号,对应并锁定了当前可信行驶里程对应的减碳额,可直接由上市公司一键导出绿氢碳汇专报落款同步备案。' }, { labelCn: '可信存证护盾', labelEn: 'PROOF SHIELD', value: 'Ready', formula: 'HSM_State = Sec_Level(FIPS_140_2)', tooltip: '安全存证守护状态。LNBox 硬件网关内置硬件安全包,采用FIPS美国联邦信息安全标准级别的加密校验。Ready 代表设备完好、未检测到任何物理破坏及GPS欺骗模拟,数据绝对纯真。' }, { labelCn: '大模型核算模型', labelEn: 'FACTOR MODEL', value: 'AI-Model-H2', formula: 'E_h2 = Graph_Neural_Inference_Core', tooltip: 'OneOS 绿氢智能碳账户专属计算大模型算法(AI-Model-H2),能根据车载冷链箱温、车辆荷载、车载极化曲线衰耗模型和实时环境气温对基准损耗做出多环拟合,极大地提高了碳核证的权威严谨性。' }, { labelCn: '绿氢核证状态', labelEn: 'TRACE STATUS', value: '核定完成 / 预备存证', formula: 'Audit_Status = Core_Certified', tooltip: 'OneOS 平台对车端里程、能耗数据完成了高可信原始核算与智能签名闭环,符合国际ESG公信框架,支持零改动弹性平移至多方碳普惠联盟。' }, ].map((m, i) => (
{m.labelCn} {m.labelEn} {m.value} {/* Interactive Tooltip Card */}
{m.labelCn} · 取值逻辑 {m.labelEn}
算法公式/测算逻辑: {m.formula}
生成说明:

{m.tooltip}

{/* Triangle Arrow */}
))}
{/* Linear Flowchart Diagram */}
End-to-End Pipeline

车端原始数据到绿氢碳资产入账全链路

{[ { step: '01', title: '车端物理数据采集', desc: 'LNBox 实时高可信采集车辆里程、轨迹、瓶温、瓶压、路线。' }, { step: '02', title: '可信网关边缘处理', desc: '边缘层防篡改锁定,加入可信哈希并双安全通道上云。' }, { step: '03', title: 'AI大模型融合核算', desc: '结合能耗曲线,排除环境异常,精准对齐国际车型因子。' }, { step: '04', title: '碳资产认证与存证', desc: '核算双碳替代量并生成可信存证,自动录入ESG系统。' }, { step: '05', title: '数据智能闭环决策', desc: '输出车辆余氢续航预测、加氢站低成本补能路线推荐,完成闭环。' } ].map((step, idx) => (
STEP {step.step} SECURED

{step.title}

{step.desc}

{/* Connection Chevron for Desktop (don't show on last item) */} {idx < 4 && (
)}
))}
{/* Carbon Factors & Methodology Database (Injected for realistic data reference) */}
{/* Header of the console */}
LOCAL ACCOUNTING MATRIX

OneOS 智能碳账户因子库与方法学参考台账

本模块基于多地区自愿温室气体减排与碳普惠政策设立,用于多车型碳核算体系的本地高置信检验。系统采用即插即用型因数规则,将车端原始遥测流与云端计算逻辑解耦,面向未来阶段的全国或多极区块链联盟共识对接预留通用扩展通道。

{/* Selector Buttons */}
{dbTab === 'factors' ? (
{/* Database Table Warning Banner */}
多区域碳排放因子装配式核定: 当前系统已原生嵌入了中国不同经济示范区(如嘉兴、北京、广州等)发布的专属氢燃料汽车及柴油货车温室气体减排测算方法学。计算后台支持按地区、车型及吨位秒级切换与灵活装配对应的核算因子,具备极强的全局业务扩展与核准承袭能力。
{/* Factor Table */}
{[ { city: '浙江省嘉兴市', type: '公路货运', fuel: '柴油 (基准替换车)', model: '4.5吨轻型货车', formula: '可信里程(Km) × 0.3000', em: '30.00 kgCO2/100km', status: '参考对比基准' }, { city: '浙江省嘉兴市', type: '公路货运', fuel: '柴油 (基准替换车)', model: '18吨中型货车', formula: '可信里程(Km) × 0.7000', em: '70.00 kgCO2/100km', status: '参考对比基准' }, { city: '浙江省嘉兴市', type: '公路货运', fuel: '柴油 (基准替换车)', model: '49吨重卡牵引', formula: '可信里程(Km) × 1.0000', em: '100.00 kgCO2/100km', status: '参考对比基准' }, { city: '浙江省嘉兴市', type: '氢能城配 (车端)', fuel: '氢气 (OneOS 场景)', model: '4.5吨轻型冷链车', formula: '消耗氢气量(kg) × 3.0927', em: '6.1854 kgCO2/100km', status: '本地已核证 (待上链)' }, { city: '浙江省嘉兴市', type: '氢能货运 (车端)', fuel: '氢气 (OneOS 场景)', model: '18吨厢式货车', formula: '消耗氢气量(kg) × 3.0927', em: '17.0098 kgCO2/100km', status: '本地已核证 (待上链)' }, { city: '浙江省嘉兴市', type: '氢能重卡 (车端)', fuel: '氢气 (OneOS 场景)', model: '49吨牵引车辆', formula: '消耗氢气量(kg) × 3.0927', em: '30.9270 kgCO2/100km', status: '本地已核证 (待上链)' }, { city: '北京市', type: '公路货运', fuel: '柴油 (基准替换车)', model: '4.5吨货车', formula: '可信里程(Km) × 0.3240', em: '32.40 kgCO2/100km', status: '参考对比基准' }, { city: '北京市', type: '氢能储配 (车端)', fuel: '氢气 (OneOS 场景)', model: '4.5吨轻型冷链车', formula: '消耗氢气量(kg) × 3.0927', em: '6.6610 kgCO2/100km', status: '本地已核证 (待上链)' }, ].map((row, i) => ( ))}
所属地区/城市 对应运输方式 动力燃料类型 适用载重量型号 碳核算计算公式 百公里参考排放/减排因子 核证上链确权状态
{row.city} {row.type} {row.fuel} {row.model} {row.formula} {row.em} {row.status}
) : (
{/* Database Table Warning Banner */}
依据官方自愿温室气体减排标准: OneOS 智能碳核算体系严格对应了中国多地生态环境管理部门发布的公共碳减排与碳普惠政策,确保车辆运行里程和能源替代结算的高置信审计标准。数据仅限本地缓存,当前尚未连通区块链底层接口。
{/* Methodology Table */}
{[ { region: '浙江省嘉兴市', name: '《氢燃料电池货车碳减排项目方法学》(JXPHCER-03-004-V01)', org: '嘉兴市生态环境局', date: '2025-05-19', scope: '4.5吨轻冷链, 18吨厢式中货卡, 49吨牵引卡车', calc: '绿氢替代碳系数核减算法' }, { region: '北京市', name: '《北京市碳普惠方法学 氢燃料电池汽车(试行)》', org: '北京市生态环境局', date: '2025-07-03', scope: '货运车辆, 重型物流卡车, 4.5T厢式冷链车', calc: '北京温室二氧化碳基准减法' }, { region: '广东省广州市', name: '《广州市氢燃料电池汽车行驶碳普惠方法学(2024试行版)》', org: '广州市生态环境局', date: '2024-11-20', scope: '冷链城配载客载货车, 环卫作业车辆', calc: '广州绿色行驶替代系数核定' }, ].map((row, i) => ( ))}
涵盖及特定地区 方法学政策/机制名称 主导/发布机构 政策颁布执行日期 适用车型/基准约束范围 OneOS 本地对齐算法
{row.region} {row.name} {row.org} {row.date} {row.scope} {row.calc}
)}
)}
{/* 3. Global Dashboard Footer Accent */}
); }