從事音響設備的朋友會遇到系統調試和設備使用的問題。一套專門的音響系統必須通過系統調試才能取得良好的效果。
山東音響系統調試主要是檢查每臺設備的工作狀態、電平匹配、聲壓級設置、系統頻率響應、限壓器起點、延遲、反饋抑制器調整等。
Friends who are engaged in audio equipment will encounter problems with system debugging and equipment use. A set of special audio system must be debugged to achieve good results. Shandong professional audio system commissioning is mainly to check the working status, level matching, sound pressure level setting, system frequency response, voltage limiter starting point, delay, feedback suppressor adjustment, etc. of each equipment.
有沒有可以根據現場情況智能設置相關參數,輕松處理系統調試的設備?我們以前不敢這樣希望,但現在可以大膽提出,期待這種智能音響設備盡快推廣應用。
Is there any equipment that can intelligently set relevant parameters according to the site conditions and easily handle system debugging? We didn't dare to hope so before, but now we can boldly put forward and hope that this intelligent audio equipment will be popularized and applied as soon as possible.
目前,音頻設備已經放棄了模擬和數字電路技術。大規模的集成電路技術使CPU容易植入設備。毫無疑問,這種類似微機的芯片植入不僅可以提高設備的綜合性能,還可以使音頻設備更加智能,不再遙遠。
At present, audio equipment has abandoned analog and digital circuit technology. Large-scale integrated circuit technology makes it easy to implant the CPU into the device. Undoubtedly, this micro-computer-like chip implantation can not only improve the comprehensive performance of the equipment, but also make the audio equipment more intelligent and not far away.
但問題是,我們音頻行業的R&D人員是否有這樣的理解。目前,音頻行業的大多數設備都處于普遍的智能化狀態。在大多數設備水平上,網絡化和信息化才剛剛開始。當然,智能實際上是一些沒有智能數據模式的調用,就自動化而言。
But the question is whether our R&D personnel in the audio industry have such understanding. At present, most devices in the audio industry are in a general intelligent state. At the level of most equipment, networking and informatization have just begun. Of course, intelligence is actually some calls without intelligent data mode, in terms of automation.
盡管如此,這種設備很少可憐,所謂的應用場景模式也很少可憐。因此,只有少數人可以調試和使用多個音響系統,提高設備的性能,如大型劇場和娛樂場所,以及高頻率?對于使用也有很大的限制。
However, such devices are rarely pitiful, and the so-called application scenario mode is also rarely pitiful. Therefore, only a few people can debug and use multiple audio systems to improve the performance of advanced equipment, such as large theatres and entertainment venues, and high frequency? There are also great restrictions on advanced use.
必須指出的是,智能機器的研發也走過了一條彎路。在此之前,大多數智能機器理論上將實際應用存儲在機器中,然后將當時的應用程序與內存中的場景進行比較,找出類似或合適的模式進行啟用。
It must be pointed out that the R&D of intelligent machines has also gone through a detour. Before that, most intelligent machines theoretically stored the actual application in the machine, and then compared the application at that time with the scene in memory to find a similar or suitable mode to enable.
事實證明,這種思維很快就進入了智能機器研發的死胡同。一方面,現實中的應用場景很難耗盡,即沒有數量的存儲模式可以滿足實際應用;另一方面,這種窮舉性思維無法充分發揮計算機-數值計算的優勢。
Facts have proved that this kind of thinking soon entered the dead end of intelligent machine research and development. On the one hand, it is difficult to exhaust the application scenarios in reality, that is, there is no number of storage modes to meet the actual application; On the other hand, this kind of exhaustive thinking cannot give full play to the advantages of computer-numerical calculation.
因此,智能機器的研發只能采用另一種方式,即不斷使用各種傳感器收集的數據,與參考數據進行比較,調整輸出(動作),然后將傳感器收集的數據與參考數據進行比較。計算,判斷是計算機的力量,它使機器智能走出死胡同,擁有好的未來。關注我們
http://www.zkvd.cn,了解更多事項!
Therefore, the research and development of smart machines can only adopt another way, that is, continuously use the data collected by various sensors to compare with the reference data, adjust the output (action), and then compare the data collected by sensors with the reference data. Computing and judgment are the power of computers, which make machine intelligence go out of the dead end and have a good future. Follow us http://www.zkvd.cn , learn more!
魯公網安備 37010202002516號
