![]() My USB uirt I wedged behind my TV to allow it to control the air conditioning unit for the living room. One (or more via a splitter) of these can Be Plugged into the uirt 3.5mm port. Any infrared controlled device that is not in line of sight with the USB uirt can easily be controlled via infrared emitters. The transceiver allows reading of any infrared remote codes and transmission of those codes. The key behind creating the universal remote is the John Rees USB uirt. Read on and I hope you find my work interesting. I even extended the use of this setup from home comfort to home access: It does NOT NEED a built in infrared emitter! In fact I never use the one in my Galaxy Note 4! This automation setup uses wifi, so the more power your wifi router transmits, the larger the range you shall have! Please note that any android phone or tablet can be used in this instructable. Also, all of this is powered from my solar power system: This guy is an absolute genius! The license I purchased is for the standard version (50USD) of girder 6 and trust me when I say its worth every cent. My deepest thanks to Ron Bessems of promixis for his assistance on getting my home automation using girder 6 and netremote dynamic working perfectly. Moreover, strengthening bridge piers with CFRP increases median fragility by approximately 32% on average, and thus has a significant impact on reducing the vulnerability of the bridge system.My continuing drive to unify all my remote control needs into one device has lead me to certain hardware and software to enable my android phone as a true Universal Remote. Numerical results indicate that with decreasing bridge radius, the probability of bridge vulnerability substantially increases. Subsequently, bridge systems were modeled in OpenSEES software subjected to 80 near-fault ground-motion records, considering three components of the earthquake in three dimensions and including all the existent uncertainties. The bridge piers were then retrofitted with carbon fiber–reinforced polymer (CFRP). Therefore, this work addressed the impact of different radii of curvature on the probability of seismic damage for curved multiframe concrete box-girder bridges and compared the results with those of straight bridge. Considering the fact that bridges have shown vulnerability during past earthquakes, vulnerability evaluation and retrofitting of bridges has become of significant importance. Given the special geometric features of curved bridges, they show a complex behavior during an earthquake. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |