博兹库尔特表示:“Kinect摄像头获取了需要昆虫行走的路径。然后摄像头将路线划分成多个路径点,将昆虫从一个路径点移动到下一个。摄像头会根据昆虫的具体外形找到昆虫,并向昆虫佩戴的背部装置发送必要的波形。该背部装置会向昆虫的感觉器官发送微伏脉冲,帮助我们操控昆虫。原理类似于用缰绳骑马。”
The program also uses Kinect to collect data on how the roaches respond to the electrical impulses from the remote-control interface. This data will help the researchers fine-tune steering to control the roaches more precisely. The team will employ Microsoft’s new Kinect 2.0, which debuted with Xbox One, to further push this experiment forward.
此外,该项目还使用Kinect来收集蟑螂对远程控制接口发出的电脉冲如何响应的数据。这些数据将帮助研究人员调整操控方式,以更加精确地控制昆虫。研究团队将使用微软的最新款Kinect 2.0来进一步推进实验。Kinect 2.0随Xbox One同步上市。
“The advanced audio processing on the sensor could also lead to some interesting scenarios when we try to make the insects move toward a sound source,” said Bozkurt.
博兹库尔特说道:“当我们尝试着促使昆虫向声源移动时,先进的传感器音频处理技术也会带领我们进入一些有趣的场景。”
Having performed very successful demonstrations in the laboratory environment, the team (which includes NC State professors Edgar Lobaton and MihailSichitiu) has received funding from the National Science Foundation’s Cyber-Physical Systems program to bring this technology into real-life scenarios. The goal is to accomplish this within three to four years.
【解密高科技蟑螂:最新救灾神器】相关文章:
最新
2020-09-15
2020-09-15
2020-09-15
2020-09-15
2020-09-15
2020-09-15