法医临床影像数字化·胶片扫描DICOM标准化·多期影像比对测量·图文鉴定报告智能生成管理工作站（公安法医/司法鉴定影像工作站）

 

法医临床影像数字化·胶片扫描DICOM标准化·多期影像比对测量·图文鉴定报告智能生成管理工作站（公安法医/司法鉴定影像工作站）

〖重要合规前置声明〗 本产品为国家管制类刑事技术侦查取证鉴定专用装备，仅面向具备法定执法权限的各级公安机关、人民检察院、人民法院、国家安全机关、司法鉴定机构及授权执法单位定向研发、生产与供应，严禁向任何个人、无资质企业及非授权单位销售或提供。本设备的购置、配备、使用与管理，必须严格遵守国家关于刑事技术装备管理及司法鉴定活动的相关法律法规与行业技术标准，必须由经过专业培训、取得相应执法或司法鉴定资格的人员规范操作，严禁无资质单位和个人违规购置、使用、转让本装备，严禁因违规操作导致的影像证据失真或司法鉴定程序违法，严禁未经授权篡改、泄露、非法复制涉案医学影像及鉴定数据。

产品概述

法医临床影像数字化·胶片扫描DICOM标准化·多期影像比对测量·图文鉴定报告智能生成管理工作站（亦称法医临床影像数字化管理工作站、胶片影像工作站系统）是一款集医用胶片高精度扫描、数字影像标准化处理、涉案资料一体化管理及专业司法鉴定文书自动生成于一体的综合性刑事技术信息处理平台，属于公安法医、司法鉴定、检察院技术侦察领域的核心证据管理装备。该产品专为法医临床学鉴定及检察机关技术性证据审查中的各类医学影像胶片数字化转换、损伤形态学精密测量、多期影像动态比对及鉴定文书规范化输出深度定制，完美适配法医实验室标准化检验、鉴定机构档案信息化建设及出庭示证等多种严苛工作场景。系统通过将传统物理胶片与多源数字影像统一转换为符合DICOM 3.0国际标准的法定格式，从根本上解决了传统法医影像管理中胶片物理损耗、检索困难、比对不精确及文书制作不规范等实战痛点，能够为鉴定人提供客观、可回溯、具备完整司法效力的影像学证据链与标准化图文鉴定报告，是构建现代化、数字化法医实验室与司法证据管理体系的核心刑事技术装备。

技术原理

该系统严格遵循医学影像信息学、数字图像处理及DICOM国际标准进行科学架构。其底层核心技术建立在高保真光学扫描与标准化编码基础之上。专用医用胶片扫描仪内置高分辨率CCD传感器，具备4.0 D超高光密度动态范围，能够无损穿透各类曝光过度的X光片，将物理胶片上的模拟光学信息以不低于1200 dpi的精度转换为16位灰阶的高保真数字图像，完美保留骨骼、软组织等细微结构的原始影像特征，杜绝因数字化转换带来的信息失真。

在工作站核心软件层面，系统严格遵循DICOM 3.0国际标准，将扫描图像及从医院PACS系统直接导入的CT、MRI等数字影像序列，统一进行标准化编码、无损压缩存储及归档管理。鉴定人可利用专业的图像处理算法，进行窗宽窗位调节、多平面重建及序列比对。通过自动化几何测量工具，精确定量提取长度、角度、不规则面积等损伤参数。最终，系统将影像数据、测量结果与鉴定文本信息深度融合，依据司法鉴定管理规范中关于文书格式的法定要求，智能生成包含关键影像图帧、标注及量化分析结果的标准化图文鉴定报告。全流程操作具备完整且不可篡改的审计日志，确保影像证据从采集、分析到归档的全过程司法完整性。

核心功能与合规实战价值

全流程DICOM标准化集成，确保证据互通与司法互认
系统在硬件采集端支持从2.5″×2.5″齿科片至14″×35″全身骨骼片的全尺寸胶片扫描数字化，在软件接口端支持直接导入医院电子影像序列，并将所有来源的影像数据统一转换为标准DICOM 3.0格式进行归档管理。这一设计在根本上消除了法医鉴定机构与临床医院之间的数据格式壁垒，可实现与医疗PACS系统及遵从DICOM标准的第三方鉴定系统的无障碍数据交换，完全符合司法鉴定信息化建设中关于数据互认互通的法定要求，确保跨部门证据流转过程中的客观性与一致性。

专业法医学图像处理与动态比对，锁定损伤形态关键证据
系统提供符合法医学鉴定需求的专业影像分析工具集，支持窗宽窗位精细调节、局部自适应调窗、图像几何校正及文字标注。其核心价值在于独有的多期影像对比与图像切割/序列重建功能，鉴定人可将同一被鉴定人在受伤初期、治疗中期及恢复后期的影像进行精确配准与同屏对比，实现对骨折愈合、组织修复等动态变化的直观量化比对，为损伤机制分析及损伤程度鉴定提供连续且不可辩驳的影像学科学依据。内置的长度、角度及不规则面积测量精度满足法医活体损伤计算的高标准要求。

一体化证据资料整合归档，构建完整鉴定卷宗链
系统不局限于单一医学影像的管理，还通过扩展接口集成了高拍仪、数码摄像头等输入终端。鉴定人可将检验过程中拍摄的体表伤情照片、个人识别特征（如纹身、疤痕）、纸质病历及身份书面文件等一并扫描入库，围绕单一被鉴定人构建起“影像+图文+文书”三位一体的完整电子档案卷宗。这种深度整合管理模式支持快速检索及关联调阅，并配套光盘刻录功能供出庭举证使用，有效防范了案卷材料的遗漏与丢失，极大提升了在法庭质证环节中证据链的严密性。

标准化鉴定报告自动生成，提升文书制作效率与合规性
系统内置严格依照司法鉴定管理规范定制的专业图文报告模板，在鉴定人完成影像分析与测量后，系统可一键自动抓取关键影像帧、测量数据及标注信息，生成格式规范、图文清晰的标准化司法鉴定意见书并直接打印输出。该功能从根本上杜绝了传统手工编排报告中格式不一、影像不清晰、数据录入错误等问题，在鉴定工作量高度饱和的实战环境下，显著缩短了文书制作周期，同时保证了鉴定文书的法定性与规范性。

合规应用场景

法医人身损伤程度司法鉴定场景
法医鉴定人利用本工作站，对伤者拍摄的X光、CT、MRI等影像胶片进行数字化无损扫描处理，并运用精密测量与多期对比工具，准确量化骨折移位距离、关节脱位程度及脏器挫裂体积等关键指标。整个鉴定与出证流程严格符合国家关于人体损伤程度鉴定标准的规范要求，将主观经验判断转化为客观影像数据支撑，为“轻伤、重伤”的法定定性结论提供直接的影像学客观依据，保障鉴定意见在刑事诉讼中的采信力。

检察院技术性证据审查与监督场景
检察机关技术部门在办理故意伤害、医疗责任事故等审查逮捕或起诉案件时，利用本系统对侦查机关移送的或当事人提交的矛盾影像资料进行专业化独立审查。利用高分辨率影像重建、多序列动态比对及精确测量功能，鉴定人可对原鉴定意见所依赖的影像学指征进行复核与验证，评估其诊断的准确性与逻辑合理性，有效发现潜在的错误鉴定或证据瑕疵，为检察监督提供关键的技术性证据审查意见，严守证据入口关。

长期随访与重新鉴定动态追踪场景
针对涉及赔偿依赖、功能障碍持续评估的人身伤害案件，系统可建立以被鉴定人为主线的专属终身影像档案。在不同的鉴定时间节点，鉴定人可快速调阅历史影像，同屏对比首次损伤与当前恢复状况的影像学差异，动态追踪骨折线愈合、软组织修复的演变过程。这种连续且精确的影像证据链管理为重新鉴定提供了完整的客观参照，避免了因胶片遗失导致的证据断链，确保了司法裁定在不同诉讼阶段的连贯一致性。

法医实验室信息化与证据档案标准化建设场景
作为现代化法医实验室刑事科学技术装备的核心组成部分，本工作站将散落在物证袋中的传统胶片、不同类型的数字图像及各类鉴定文书，统一整合为安全可检索的标准化电子档案库。系统支持定期异地备份与分级权限加密管理，完全符合司法鉴定机构资质认定中对档案管理电子化与安全性的要求，显著提升了鉴定卷宗利用效率与存储安全性，推动了法医鉴定机构向无纸化、信息化、集约化方向转型。

核心技术参数

系统核心软件与影像管理方面，法医临床影像数字化管理工作站严格遵循DICOM 3.0标准，扫描图像直接转换为DICOM格式保存，同时兼容JPG、TIF、BMP等常规格式输出。图像处理模块提供窗宽窗位调节、对比度调整、缩放、旋转、局部调窗、多图同屏及图像校正等功能。测量工具集支持长度、角度及不规则面积测量，并具备文字标注能力。其核心比对功能支持不同被检人或同一被检人多期影像的同屏精确对比。系统内置标准图文报告模板，支持一键打印与输出，并配备相机、摄像头、高拍仪等外部数据接口，支持从U盘或光盘批量导入外部数据，同时支持图像编辑与资料光盘刻录。

医用胶片扫描仪性能方面，设备光学分辨率不低于1200 dpi，光密度范围达到4.0 D，能够穿透高黑度曝光区域并保留细微影像细节，扫描速度不超过10秒/张的快速作业能力满足批量胶片处理需求。灰度采集位深为16 bits，支持从2.5″×2.5″至14″×35″的全尺寸胶片扫描，完全覆盖齿科片与全身骨骼等全部法医常用片型，数据接口采用USB 2.0。

灰阶医用显示器显示方面，配置20.1英寸专业医用屏，分辨率达到1200×1600，亮度高达700 cd/m²（校正值400 cd/m²），对比度为1000:1，内建12-bit LUT灰阶查找表，确保影像灰阶过渡平滑，真实呈现骨骼与软组织间的微小密度差异，符合法医阅片的高诊断精度要求。

配套硬件系统方面，图像工作站主机采用奔腾双核3.2GHz以上CPU，搭配4GB以上内存、500GB以上存储空间及512MB以上独立显存显卡，并内置DVD刻录光驱满足证据光盘制作需求。配套便携式文档扫描仪具备ADF自动进纸底座，光学分辨率为600×1200 dpi，支持双面彩色、灰度及黑白扫描模式，ADF容量为20页，输出格式支持JPG、多页TIF及多页PDF，用于批量文书扫描归档。

合规实战应用案例

某地检察院在审查一起涉及故意伤害致人重伤的批捕案件中，当事人双方对骨折损伤是否由本次外力直接造成存在重大争议。原鉴定机构出具的损伤程度意见书所附影像资料模糊，且未做动态比对。检察院技术处随即利用本影像数字化管理工作站，将伤者不同时期拍摄的CT与X光原始胶片进行高精度数字化扫描，使用多期影像对齐比对功能将受伤当日、术后一周及术前影像进行精确配准同屏展示。鉴定人借助几何测量工具标定骨折线移位轨迹，发现骨碎片位移路径与嫌疑人供述的打击方向一致，从而客观印证了伤害行为的直接因果关系。工作站自动生成的图文鉴定复核报告作为关键补强证据被法庭采信，有力地推进了诉讼进程。

某公安法医鉴定中心在构建实验室信息化体系过程中，引入本系统对建所以来积压的大量散装纸质胶片档案开展数字化清理工程。技术人员操作高速胶片扫描仪将数千份陈旧的X光片分批转化为标准DICOM数字影像，并通过文书高拍仪同步扫描配套的鉴定委托书与病历文书，按照被鉴定人身份信息建立起了完备的可回溯电子档案数据库。这一举措使历史案卷的检索时间从数小时大幅缩短至数秒，彻底解决了因物理胶片老化、霉变带来的证据灭失风险。在随后多起申诉复查案件中，便捷的历史影像调阅提升了鉴定复核工作效率，实现了司法鉴定档案向数字化、标准化、安全化的转型。

厂家信息：北京毕思特联合科技有限公司
网址：https://www.bestlh.com
地址：北京市亦庄开发区经海六路一号院尖子班 C9 独栋
电话：010-56526048

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Forensic Clinical Imaging Digitalization · Film Scanning DICOM Standardization · Multi-Phase Image Comparison & Measurement · Illustrated Expert Report Intelligent Generation Management Workstation (Forensic Imaging Workstation for Judicial Expertise)

Global site URL：https://xilankeji.en.alibaba.com

〖Important Compliance Precaution〗 This product is a state-controlled specialized equipment for criminal technical investigation, evidence collection and forensic identification, which is solely developed, produced and supplied to authorized law enforcement agencies such as public security organs, procuratorates, courts, national security organs, forensic identification institutions and authorized enforcement units with statutory law enforcement authority. Any sale or supply to individuals, non-qualified enterprises and unauthorized units is strictly prohibited. The procurement, deployment, use and management of this equipment must strictly comply with national laws, regulations and industrial technical standards governing criminal technical equipment and forensic identification activities. Operation must be carried out exclusively by professionally trained personnel holding corresponding law enforcement or forensic identification qualifications. Unauthorized units and individuals are strictly forbidden from purchasing, using or transferring this equipment. Any distortion of imaging evidence, violation of forensic procedure, or legal consequences arising from improper operation, as well as unauthorized tampering with, leaking, or illegally copying case-related medical images and identification data, are strictly prohibited.

Product Overview

The Forensic Clinical Imaging Digitalization, Film Scanning DICOM Standardization, Multi-Phase Image Comparison & Measurement, Illustrated Expert Report Intelligent Generation Management Workstation (also referred to as the Forensic Clinical Imaging Digital Management Workstation, or Film Imaging Workstation System) is a comprehensive criminal technical information processing platform integrating high-precision medical film scanning, standardized digital image processing, integrated case-related material management and automatic generation of professional forensic expert reports, constituting a core evidence management equipment for forensic medicine, judicial expertise and procuratorial technical investigation. This product is deeply customized for digitizing various medical imaging films, conducting precision morphometric injury measurement, performing dynamic multi-phase image comparison and standardizing illustrated expert document output in forensic clinical identification and procuratorial technical evidence review, perfectly adapting to rigorous work scenarios including standardized forensic laboratory examination, electronic archive construction in identification institutions and courtroom evidence presentation. By uniformly converting traditional physical films and multi-source digital images into a statutory format compliant with the DICOM 3.0 international standard, the system fundamentally resolves the pain points of traditional forensic image management such as physical film degradation, retrieval difficulty, imprecise comparison and non-standard document production. It provides examiners with objective, traceable imaging evidence chains and standardized illustrated expert reports with complete judicial validity, serving as the core criminal technical equipment for constructing modernized, digitized forensic laboratories and judicial evidence management systems.

Technical Principle

The system is architected strictly following the scientific principles of medical imaging informatics, digital image processing and DICOM international standards. Its underlying core technology is established on high-fidelity optical scanning and standardized encoding. The dedicated medical film scanner, equipped with a high-resolution CCD sensor and possessing an ultra-high optical density dynamic range of 4.0 D, can losslessly penetrate various overexposed X-ray films, converting the analog optical information on physical films into 16-bit grayscale high-fidelity digital images at a precision of no less than 1200 dpi, perfectly preserving the original imaging characteristics of subtle structures such as bones and soft tissues, thus eliminating any information distortion caused by digital conversion.

At the workstation core software level, the system strictly adheres to the DICOM 3.0 international standard, uniformly performing standardized encoding, lossless compression storage and archive management on scanned images and directly imported digital imaging sequences such as CT and MRI from hospital PACS systems. Examiners can utilize professional image processing algorithms for window width/level adjustment, multi-planar reconstruction and sequence comparison. Through automated geometric measurement tools, injury parameters such as length, angle and irregular area are precisely and quantitatively extracted. Ultimately, the system deeply integrates imaging data, measurement results and identification text information, intelligently generating standardized illustrated expert reports containing key image frames, annotations and quantitative analysis results, in accordance with the statutory format requirements prescribed in forensic identification management regulations. All process operations possess complete and tamper-proof audit logs, ensuring the judicial integrity of imaging evidence throughout the entire workflow from acquisition and analysis to archiving.

Core Functions and Compliance Operational Value

Full-Process DICOM Standardized Integration, Ensuring Evidence Interoperability and Judicial Mutual Recognition
At the hardware acquisition end, the system supports full-size film scanning digitization from 2.5″×2.5″ dental films to 14″×35″ full-body skeletal films; at the software interface end, it supports direct import of hospital electronic imaging sequences, and uniformly converts all sourced imaging data into the standard DICOM 3.0 format for archive management. This design fundamentally eliminates the data format barrier between forensic identification institutions and clinical hospitals, enabling barrier-free data exchange with medical PACS systems and DICOM-compliant third-party identification systems. It fully complies with the statutory requirements for data mutual recognition and interoperability stipulated in the informatization construction standards for forensic identification, ensuring objectivity and consistency in cross-departmental evidence transfer processes.

Professional Forensic Image Processing and Dynamic Comparison, Locking Key Evidence of Injury Morphology
The system provides a professional imaging analysis toolset meeting forensic identification needs, supporting fine window width/level adjustment, local adaptive window adjustment, image geometric correction and text annotation. Its core value lies in the unique multi-phase image comparison and image cutting/sequence reconstruction function, allowing examiners to precisely register and simultaneously compare images on the same screen of the same examinee at different periods—including the initial injury phase, mid-treatment phase and recovery phase—achieving intuitive and quantitative comparison of dynamic changes such as fracture healing and tissue repair, providing continuous and indisputable imaging scientific evidence for injury mechanism analysis and injury degree assessment. The built-in measurement accuracy for length, angle and irregular area meets the high-standard requirements for forensic living body injury calculation.

Integrated Evidence Material Consolidation and Archiving, Constructing a Complete Identification Case File Chain
The system’s management scope is not limited to medical images; through extended interfaces, it integrates input terminals such as document cameras and digital cameras. Examiners can simultaneously scan body surface injury photos, personal identification features (such as tattoos and scars), paper medical records and identity documents captured during examination, constructing a “imaging + photo + document” trinity complete electronic case file for each examinee. This deeply integrated management model supports rapid retrieval and linked access, and features a CD/DVD burning function for courtroom evidence presentation. It effectively prevents the omission or loss of case file materials and greatly enhances the rigor of the evidence chain during court cross-examination.

Standardized Expert Report Automatic Generation, Enhancing Document Production Efficiency and Compliance
The system has built-in professional illustrated report templates strictly customized according to forensic identification management regulations. After the examiner completes image analysis and measurement, the system can automatically capture key image frames, measurement data and annotation information with one click, generating a format-standardized, clear-illustrated standardized forensic expert opinion and directly printing it out. This function fundamentally eliminates issues common in traditional manually compiled reports, such as inconsistent formatting, unclear images and data entry errors. In operational environments with highly saturated identification workloads, it significantly shortens document production cycles while ensuring the statutory nature and normativity of the expert documents.

Compliant Application Scenarios

Forensic Bodily Injury Degree Judicial Identification Scenario
Forensic examiners utilize this workstation to perform lossless digital scanning processing on X-ray, CT, MRI and other imaging films of the injured. Using precision measurement and multi-phase comparison tools, they accurately quantify key indicators such as fracture displacement distance, joint dislocation degree and organ contusion/laceration volume. The entire identification and certification process strictly complies with the normative requirements of national standards for human body injury degree assessment, transforming subjective empirical judgments into objective imaging data support. It provides direct imaging objective evidence for the statutory qualitative conclusions of 'minor injury' or 'serious injury,' ensuring the admissibility of identification opinions in criminal proceedings.

Procuratorial Technical Evidence Review and Supervision Scenario
When handling cases such as intentional injury or medical liability accidents during arrest review or prosecution, the technical department of procuratorial organs utilizes this system to conduct professional independent reviews of contradictory imaging materials transferred by investigative organs or submitted by parties. Utilizing high-resolution image reconstruction, multi-sequence dynamic comparison and precision measurement functions, examiners can re-examine and verify the imaging indications relied upon in the original identification opinion, assess the accuracy and logical reasonableness of its diagnosis, effectively discover potential erroneous identifications or evidence flaws, and provide critical technical evidence review opinions for procuratorial supervision, strictly guarding the evidence intake gate.

Long-Term Follow-Up and Re-Identification Dynamic Tracking Scenario
For personal injury cases involving compensation dependency and continuous functional impairment assessment, the system can establish an exclusive lifelong imaging archive for each examinee. At different identification time points, examiners can quickly access historical images, compare the imaging differences between the initial injury and the current recovery status side-by-side on the same screen, and dynamically track the evolution process of fracture line healing and soft tissue repair. This continuous and precise imaging evidence chain management provides complete objective reference for re-identification, avoids evidence chain breakage caused by film loss, and ensures the coherence and consistency of judicial rulings across different litigation phases.

Forensic Laboratory Informatization and Evidence Archive Standardization Construction Scenario
As a core component of modern forensic laboratory criminal technical equipment, this workstation uniformly integrates traditional films scattered in evidence bags, different types of digital images and various identification documents into a secure and retrievable standardized electronic archive database. The system supports regular off-site backup and hierarchical permission-encrypted management, fully meeting the requirements for electronic and secure archive management stipulated in forensic identification institution qualification accreditation. It significantly improves the utilization efficiency and storage security of identification case files, driving the transformation of forensic identification institutions towards paperless, informatized and intensive directions.

Core Technical Parameters

In terms of system core software and image management, the Forensic Clinical Imaging Digital Management Workstation strictly adheres to the DICOM 3.0 standard, with scanned images directly converted and saved in DICOM format, while also compatible with conventional format outputs such as JPG, TIF and BMP. The image processing module provides functions including window width/level adjustment, contrast adjustment, zoom, rotation, local window adjustment, multi-image same-screen display and image correction. The measurement toolset supports length, angle and irregular area measurement, with text annotation capability. Its core comparison function supports same-screen precise comparison of multi-phase images from different or the same examinee. The system has built-in standard illustrated report templates, supports one-click printing and output, and is equipped with external data interfaces for cameras, digital cameras and document cameras, supporting batch import of external data from USB drives or optical discs, as well as image editing and data disc burning functions.

Regarding medical film scanner performance, the device has an optical resolution of no less than 1200 dpi, an optical density range reaching 4.0 D, capable of penetrating high-density exposure areas and preserving fine image details, with a fast scanning speed of no more than 10 seconds/sheet to meet batch film processing demands. The grayscale acquisition bit depth is 16 bits, supporting full-size film scanning from 2.5″×2.5″ to 14″×35″, completely covering all commonly used forensic film types including dental and full-body skeletal films, with a USB 2.0 data interface.

Regarding grayscale medical display performance, the configuration features a 20.1-inch professional medical screen, with a resolution of 1200×1600, brightness up to 700 cd/m² (calibrated value 400 cd/m²), a contrast ratio of 1000:1, and a built-in 12-bit LUT grayscale lookup table, ensuring smooth grayscale transitions to faithfully present minute density differences between bone and soft tissue, meeting the high diagnostic precision requirements of forensic film reading.

In terms of supporting hardware systems, the image workstation host adopts a Pentium dual-core CPU above 3.2GHz, paired with 4GB or more RAM, 500GB or more storage space, and a dedicated graphics card with 512MB or more video memory, along with a built-in DVD burner to meet evidence disc creation needs. The supporting portable document scanner features an ADF automatic document feeder base, with an optical resolution of 600×1200 dpi, supporting duplex color, grayscale and black-and-white scanning modes, with an ADF capacity of 20 sheets, and output formats supporting JPG, multi-page TIF and multi-page PDF, used for batch document scanning and archiving.

Compliant Field Application Cases

During the review of an arrest approval case involving intentional injury causing serious bodily harm, a local procuratorate faced a major dispute between the two parties over whether a bone fracture injury was directly caused by the external force in question. The imaging materials attached to the injury degree assessment opinion issued by the original identification institution were unclear and lacked dynamic comparison. The procuratorate technical department immediately utilized this imaging digital management workstation to perform high-precision digital scanning of the original CT and X-ray films taken of the injured at different periods. Using the multi-phase image alignment and comparison function, images from the day of injury, one week post-surgery, and pre-surgery were precisely registered and displayed simultaneously. The examiner used the geometric measurement tools to calibrate the fracture line displacement trajectory, discovering that the displacement path of bone fragments matched the striking direction described in the suspect’s confession, thereby objectively corroborating the direct causal link of the harmful act. The workstation automatically generated the illustrated expert review report, which was admitted as key corroborating evidence by the court, effectively advancing the litigation process.

During the construction of its laboratory informatization system, a public security forensic identification center introduced this system to carry out a digital cleanup project on a large volume of loose paper film archives accumulated since its establishment. Technicians operated the high-speed film scanner to convert thousands of aged X-ray films into standard DICOM digital images in batches, and synchronously scanned the accompanying identification entrustment letters and medical records using the document camera, establishing a fully traceable electronic archive database organized by examinee identity information. This initiative shortened the retrieval time for historical case files from several hours to just seconds, completely eliminating the risk of evidence loss caused by physical film aging and mold. In multiple subsequent petition review cases, the convenient retrieval of historical images improved the efficiency of identification review work, achieving the transformation of forensic identification archives towards digitization, standardization and security.

Manufacturer Information: Beijing Best United Technology Co., Ltd.
Website: https://www.bestlh.com
Address: Building C9, Jianziban, No.1 Courtyard, Jinghai Sixth Road, Yizhuang Development Zone, Beijing
Tel: 010-56526048