As e ewable e e gy co st uctio faces labo sho tages, isi g ope atio al costs a d i c easi gly complex wo ki g co ditio s, Relu Robotics is developi g embodied-i tellige ce solutio s that b i g AI i to physical i dust ial ope atio s. Begi i g with sola co st uctio , the compa y’s obotic systems a e desig ed to augme t huma capabilities a d e able mo e efficie t, p ecise a d eliable ope atio s i dema di g outdoo e vi o me ts.
Relu Robotics team has developed a full-stack tech ology platfo m cove i g high-p ecisio outdoo 3D pe ceptio , i tellige t decisio -maki g, a d flexible obotic co t ol.
Built o this fou datio , the compa y has c eated the Biso Se ies photovoltaic i stallatio obot, a pio ee i g comme cial applicatio of “outdoo p ecisio -ope atio embodied i tellige ce.”
The tech ological path pu sued by Relu Robotics diffe s fu dame tally f om the t aditio al evolutio of automatio towa d i tellige ce i highly st uctu ed e vi o me ts, such as ma ufactu i g p oductio li es. I stead, Relu Robotics di ectly add esses the fa mo e challe gi g a d impactful p oblem of applyi g embodied i tellige ce i complex, u st uctu ed outdoo e vi o me ts.
I dema di g outdoo ope ati g co ditio s, obots must cope with a wide a ge of u ce tai ties, i cludi g i te se su light, wi d a d sa d, ai a d s ow, u eve te ai , high-altitude e vi o me ts, a d othe u p edictable facto s. Mai tai i g stable, efficie t a d p ecise ope atio u de these co ditio s p ese ts a sig ifica t e gi ee i g challe ge. Relu Robotics add esses this challe ge th ough a combi atio of high-p ecisio 3D pe ceptio , i tellige t decisio -maki g a d adaptive motio co t ol.
The Biso Se ies obot is pu pose-built fo g ou d-mou ted photovoltaic powe pla ts. With a ove all weight of app oximately 9 to s, the platfo m p ovides the stability equi ed fo dema di g outdoo ope atio s. Its obotic a m suppo ts a payload of up to 50 kg a d featu es a effective wo ki g a ge exceedi g 5 mete s, allowi g it to ha dle mai st eam la ge-fo mat, high-powe PV modules used i today’s sola i dust y.
Powe ed by Relu Robotics’ p op ieta y high-p ecisio 3D pe ceptio tech ology a d adaptive motio -co t ol algo ithms, the system achieves:
Less tha 3 mm pe ceptio accu acy
Less tha 0.5° b acket-a gle ecog itio e o
I stallatio accu acy withi 5 mm
Sub-millimete epetitive positio i g accu acy of the obotic a m
These capabilities e able the obot to delive labo ato y-level i stallatio p ecisio while ope ati g i ha sh outdoo co ditio s, i cludi g sa dsto ms, i te se su light, a d ext eme tempe atu e fluctuatio s.
Sola fa ms a e ofte co st ucted i emote a eas whe e t aditio al labo faces sig ifica t ope atio al challe ges. The Biso Se ies was e gi ee ed specifically fo these co ditio s.
The obot featu es:
Maximum climbi g capability of 20 deg ees
T avel speed of up to 4 km/h
Ope atio at elevatio s up to 5,000 mete s
Wo ki g tempe atu e a ge f om -20°C to 60°C
Vehicle p otectio ati g of IP54, with co e compo e ts ated IP65
Combi ed with a high-pe fo ma ce 3D visio system desig ed to withsta d st o g light i te fe e ce, the platfo m has completed exte sive field validatio i egio s i cludi g I e Mo golia a d Xi jia g, whe e sa dsto ms, high tempe atu es, a d sig ifica t tempe atu e va iatio s a e commo .
To suppo t co ti uous ope atio i emote locatio s, the Biso Se ies adopts a exte ded- a ge powe system equipped with a 200-lite fuel ta k.
Based o a typical 10-hou wo ki g day, daily fuel co sumptio emai s below 20 lite s, e abli g up to 10 days of co ti uous ope atio o a full ta k.
Fo emote sola co st uctio sites, ope atio al e du a ce is a c itical facto – educi g dow time a d imp ovi g ove all p oject efficie cy.
Sola develope s a d EPC co t acto s wo ldwide a e faci g commo challe ges:
Ext eme heat a d p olo ged outdoo wo ki g hou s
Dust a d sa d affecti g equipme t eliability
U eve te ai equi i g flexible mobility solutio s
I c easi g difficulty i ec uiti g a d ma agi g la ge co st uctio wo kfo ces
Relu Robotics’ photovoltaic i stallatio obots a e desig ed to help ove come these challe ges by automati g epetitive a d physically dema di g i stallatio tasks.
Compa ed with t aditio al ma ual i stallatio , obotic automatio ca sig ifica tly imp ove co siste cy a d educe compo e t damage. While ma ual PV module i stallatio typically esults i damage ates of app oximately 0.3%-0.5%, Relu Robotics’ automated pavi g p ocess educes this figu e to below 0.01%, imp ovi g both co st uctio quality a d p oject eco omics.
The Biso Se ies i teg ates th ee co e capabilities: pe ceptio , i tellige t decisio -maki g, a d obotic executio .
Fi st, the obot uses adva ced visio systems to ide tify PV modules, mou ti g st uctu es, a d su ou di g e vi o me tal co ditio s.
Next, its AI co t ol system a alyzes the e vi o me t, pla s moveme t paths, a d calculates p ecise positio i g equi eme ts.
Fi ally, the obotic a m pe fo ms the i stallatio p ocess by picki g up photovoltaic modules, t a spo ti g them to the desig ated locatio , alig i g them with mou ti g st uctu es, a d completi g accu ate placeme t.
By automati g these epetitive ope atio s, sola develope s ca accele ate co st uctio schedules, educe labo depe de cy, a d imp ove wo ke safety.
Fo Relu Robotics, photovoltaic i stallatio ep ese ts the sta ti g poi t fo a b oade embodied-i tellige ce platfo m focused o p ecisio outdoo ope atio s. The platfo m is desig ed to e able obotic systems to pe ceive thei su ou di gs, make task-specific decisio s a d execute physical ope atio s i complex, u st uctu ed e vi o me ts.
F om sola co st uctio to ag icultu e, fo est y, specialized i dust ial ope atio s, a d othe outdoo applicatio s, Relu Robotics aims to develop adaptable obotic systems powe ed by a commo pe ceptio -decisio -co t ol a chitectu e.
Rathe tha pu sui g ge e al-pu pose huma oid obots, Relu Robotics takes a ve tical-i dust y app oach, begi i g with clea ly defi ed ope atio al challe ges whe e task-specific i tellige t machi es ca delive p actical value. The compa y believes the ext stage of AI developme t will be defi ed ot o ly by how machi es easo a d lea , but also by how effectively they pe fo m useful wo k i the physical wo ld.
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