Oil and natural gas is a ¥"εhigh-risk industry with a long iσ≤✔ndustrial chain and many liα<nks, which can be speci§✘fically divided into explor♣₹ation, drilling, oil production, storage and £ε☆✘transportation, refining, sales and γλ>other main links. Safety productionα®↑ and emergency treatment a∑ ¥re the top priority. With the goal of serving≠ ≈ the safety of high-risk in☆☆"dustries, the company provides online gas aπ↕÷nalysis, hazard and inflammable and expl≠∏‍>osive gas monitoring, on •±-site "smoke fire temperature ga≤↓s" composite alarm monitoring, and safetyβ<♦₩ monitoring of large scenes in high-consequenc±↓♣e areas and other services and produγ​♥λcts for the oil and ♠ 'gas industry.

Natural gas is now an impor&‌tant part of urban energy, and its shπ<are in primary energyπ₹‌ is expected to double by 2035₩₽☆φ as China pushes ahead with the process of " >>₽carbon neutrality and carbon peak". Urban✘↔ gas is the key point ₹δ$↕in the urban lifeline©☆± safety project, and also the main secα•☆urity threat in the family. It is the most imp αortant monitoring object to weave the national co←‍γmprehensive and three-dimensional public ®♥✘✔safety monitoring network in the future. Urban £♦σ±gas high-reliability gas leakage monit↔εδ$oring is one of the earliest business directions  "≥to be laid out and implemented. So far, seria≤↑lized telemetering and point-type laser methane s↔↔ensors have been formed f<∏or gas stations, industrial scenes, comm↔ >≤ercial scenes, home scenes and urban lifeβ¥line scenes, and systematic intell'∑igent and digital gas safety solutions have been©→ jointly created with partners.

In the framework of new prevention firs∏™¶♥t, great safety and great emergency, th"✘↓γe key to the transformatio↕≥n of prevention first lies in the γ"construction of new fire≠δ prevention and control‍§, disaster prevention and mon ₩λitoring system. The order of magnit✔φ®ude is based on laser, infra★ ±red, spectrum and in♣↑αtelligent software tech≤¥nology system. In homes, industries, pub&≥ lic Spaces, forests and grasslands, China ha★αs developed a new generation of inn∏↕ ♠ovative prevention and monitoring productσ↕£s, such as intelligent sensors for integrated fi§☆re protection, long-range pyrotechnic ea•¶→rly warning systems, and multi-compo‍♣nent hyperspectral gas telemeters for hazardo§≈"↓us gases. In terms o₹★f fire fighting and disaster emeΩ€€rgency rescue capabi•$¥¶lities, the Order of Magnitude ≈©Ωfocuses on the empowerment and personal saφ‍§fety protection of emergency respo→Ω≥nders, including intelligent wearable equipm÷¶ent for environmental information awaren∑ ess, personnel positioning and emergency cσ®Ωommunication equipped by₹β☆π individual firefighters. Give pe↑₽rsonnel the ability to det₹‍®δect fire point through smoke, find trapped peop ≠le, temperature field thermal map, and deteβαct harmful gases in comp★φ€δlex site environment. The company is also↓λ developing forward-looking infrared lowδδ≠-light level integrated vision and inertial ₹¶πnavigation without base stat‌♥ion positioning and navigation teσ ←chnology to improve the combat effecti☆♥veness of emergency rescue personnel and ✘→ not to get lost in complex environments.

The intellectualization and digitiφεzation of coal mines and other types of mine✔↕≥s is the general trend of future‍✔  development. The outstanding achi★∞evements of mine informatization constructio₩♣∞n in China make it possible for the raΩ€σpid advancement of smart mines. The spectral>≤↔ gas sensing, intelligent φ®  vision and artificial intelligence technologi¶₽σ≥es are applied in the intelligent mine ≤αΩsafety monitoring system represented by coal mi®≈&ne, including multi-model laser met ₽♥<hane sensor, laser mu♣₹★→lti-component gas analyzer, and high-prec​•πision mine greenhouse gas emi↔ ≥βssion monitoring syste≈σ®♣m. The harsh working environment in the ₩•¶¶mining industry forces the mining ↕ ✔industry to change the traditional high-int÷±ensity operation mode and develop towa↓♥rds less humanized and unmanned o®<•σperation. The dual-optical fusion monitori<™β≠ng camera developed by ord☆‍α≤ers of magnitude can carry out on₹ε∞line intelligent analys"★is of equipment status, helping the safe, intell‍÷igent and efficient transformation of tφ↓‍∑he mining industry.

Railway and urban rail transit →✘accidents occur frequently due to hu"α​man and animal invasion, geological and natural d∑βisasters, extreme weat← αher and other factors, which bring great thr™$∞↕eat to traffic safety. Safety preπ≈♦₹vention along railway has becoφ↑me an important means of rail transit saf•< $ety. Based on the te©‌≈¶chnical advantages of multi-m↑≤ode fusion perception and intelligent system of o ​•rder of magnitude, it ☆×✔has made continuous breakthroughs inα✘→ the aspects of longer©¥→± distance, clearer, more t≤✘•olerant to bad weather and ‌ more intelligent, providing s✔≠₩erialized leading innovative technical sol∏×↓‌utions for rail transit car€ε× end, road side end and key↕₽ points. ​

It is an inevitable π¶‌←trend of intelligent dev☆™★♥elopment of maritime traffic. In the three key ✔γdevelopment directions of autonomous ship naviga₩ tion, intelligent docking and docking, and inσ ®☆telligent cooperation bet€↔ ₹ween ship and shore, ship-shore and ship-ship s☆​γ→patial information perception techno∑¶÷logy is the core content. The order§‌₹★ of magnitude has been work™₽∏ing in this field for many years, and based on ★∑the achievements in m₩ £ulti-modal fusion perceptio≥" §n, By means of lidar, 4D millimeter-wa€δ✔↔ve radar, multi-spectral fusion vision, ‌≤♥panoramic vision and other means, sever&"©'al sets of pioneering space intelligent sensing εδ¥systems, such as shipborn¶™€e panoramic radar, shipborne detailed surve→ y and tracking radar,  $and shore-based intelligent£∞ berth and berth monitoring system, have been bπ→uilt on an order of mδ∑agnitude, providing strong¶φ support for ships' autonomous naviga×₹​σtion, collision avoidance early warning, wγ¥✔ater situation analysis,$✘∑∏ and autonomous berthing auxiliary decis✔β₽±ion-making. At the same time in LNGγ®≈₽ ship methane leakage monitoring, po≈"llutant emission and carbon emissions also £←φmade targeted product÷επ innovation.

Power, chemical and smelting parks are high-risk <>↔and high-consequence areas✘§. Especially in the process of intelligent and∑± digital transformation and upgrading, safeβ£ty and environmental risks are particularly promi→α₩$nent. The grid, three-dimen÷‍sional, all-round and intellig↑ ent environmental supervision∑§δε and safety supervision syste>€↓m and platform system are necessary to match ÷✔→✘the construction goal of the£ α♦ modern industrial safety network, wh ελich can comprehensively im✘λ≤αprove the park's ability of security, environΩ↑₹mental monitoring and early warning and response¥✔ to emergencies. By the use ∑±of laser spectrum gas detection technology,φ₩" hyperspectral multi-compone♣↑nt gas telemetry analysis technology and other in∞≤♦≥novative products for electric p×✔ower, chemical and smelting s→‌cenarios, a wide range of online gas analyz✘Ωer, hazard gas sensor, remoteσα≥> telemetry multi-component gas analyzer and ₩£≥σgreenhouse gas emission monitoringγ  sensor.

Water environment is an importa×₩nt part of the field of public security,•<★π water quality analysis means, different from trΩ¥aditional methods, spectral method has been σ$‌widely used because of the adva"​↔ntages of fast measurement speed₩∏ without adding consumabl₹✘¶ es, especially UV-visible full spectrum hypeλεrspectral method, spectral reso♣§lution up to 2 ~ 10nm. Full band spe®δctral information of water sampleα™s containing different waγ ♣$ter quality parameters can be obtained only ♦₩≈←through one measurement, and water quality mu±'✘→lti-parameter monitoring can be synλ"☆chronously completed thr≈≤®ough different algorithm models, whiΩ‌✔ch is the future deve∞§♥‍lopment trend. It closely follows &εthe development pace of MEMS-FPI spectral chip an£‌∏d superstructure spectral chip, etc. whicΩφh are the world's leading ones. It al€®so tackles problems such as poor long-term staδ×πbility, poor anti-interference ability an€∞d poor generalization and σ•✘☆adaptability of inversion model exposed by full>¥ε spectrum technology, and is≠' ☆ committed to tackling the nextπ<α generation of micro-low-power full-spectrum ↔↓∞ multi-parameter water analysis sensor.

With the progress of the new generation ofφ≈"± artificial intelligence technology, fusio∞₩✔n perception, AR/VR fusion reality §§technology, the intelligent equipment of huma±∞∏πn ability expansion and capa☆★bility transcendence gradually shows new forms,£✘→γ especially in the aspects ♠←♥ of bionic autonomy, man-machine i ≠ntegration, cluster collaborati‌↑&£ve intelligent equipment and so on. The Or↔≥♠¶der of Magnitude is committed to integrating the÷Ω☆ depth sensor, gas sensor, temperatur↓₹e sensor, spectral sensor and vision s↓↓∞♠ensor as the core wearabl✔ ₹e sensing unit of super work±≈er and super soldier. After connecting with ✘∞AR glasses, it endows 'λ human with the super↔÷ ability to feel the micro details in the ✔☆environment, beyond sight vision, lowδσ light level night vision, gas, temper×±≥±ature, mass spectrometry and so on. In addit∑✔ion, infrared/low-light dual-light fusion pan♥>oramic radar, remote infrared tracking ∑→&₹fusion camera, remote laser radar and other eq←≥‍βuipment on special vehicles and ships, comb¥×α♦ined with intelligent helmet and display•‌×™ screen to enable perspective pano₽δ  ramic perception inside t≈α₽he platform. At the same ♥©£time, the multi-component gas telemetering instr₩☆§σument of high spectrometer developed by♥™¶Ω the order of magnitude can alsoΩ¥ be assembled on the specia™"♣l mobile platform of ve₩¥βhicles and unmanned aerial₩¶ vehicles to obtain th✘$β±e distribution information of toxic and harmful♦↔‌ gases such as chemical warfare ©<$§agents in special scenes.