1 Meter of Pi - Rest the Pest

created by  coderdojostpaul2 on Aug 26, 2020 5:36 PM, modified on Aug 26, 2020 5:36 PM

• Design Challenge:1 Meter of Pi
• Full Name:anil kumar Dr bheemaiah

• Image:
• Reason for the Design Challenge:
• Rest The Pest.
• The Problem.
• Given 1 cubic meter of growing space, we invite pests, pests span a large spectrum of species and the rest is said in silence, when we do need to mitigate the loss, in the precious growing space, we need to indeed rest the pest!Given the growing conditions and advanced multi sensor fusion, all with the computing power of the Pi 4, there must be a minimalist, solution. In Rest The Pest, we present exactly this minimalism, with decades of delta sleep expertise, at Vayu Vaidya, a premier space medicine and technology organization. We sleep the pests, off all genre. Are you asleep too?
• The Project Plan
• ResearchThe problems addressed by the project , namely adopting delta sleep to entomological and possibly mammal targets will be researched.
• The instrumentation that is needed to quantify the problems will be researched and selected, this includes the communications transponders, the delta sleep transponders and the feedback loop systems, the biometrics of entomology and beyond...The challenge kit of parts will be researched with respect to using them in the project.System DesignBlock diagramPCB DesignChassis designSoftware DesignPower supply design
• Material ProcurementMaterial needed for the project will be sourced and procured
• System BuildElectronics build, Mechanical Build, Software programming
• Developmental TestingSystem electrical testing, System software testing, System mechanical testing
• System Application TestsThe system will be used to audit my environment
• Documentation & ConclusionsEach of the project plan tasks will include a related blog
• System Concept
• Space the final frontier, is however limited in the cubic meter box, calling for a compaction of sensors and the pi unit, the transponders to a strategic placement and of course IP68 readiness, and builtin fault tolerance with redundancy.Given the following sensors,the required housing and system components are 3D printed with seals for IP68 specifications. A single display, as part of the kit remains for visual debugging as the built in WiFi and BLE communications are used to communicate to the rest of the space electronics.The transducers for the feedback loops, both biometric and delta wave transponders are a combination of the supplied sensors, integrated with IP68 cameras, research indicating, how many are needed.The theory of Deep Delta Sleep for entomological and mammal targets will be developed and applied, as the deep loops are developed in a series of publications on the subject. This includes the design of synthetic neurons and burst modes, and the data mining of biometrics from image and video streams and multi sensor integration streams. Transfer Learning of tensor lite networks for deep feedback control theory is a proven approach. The Tensor Decomposition for this network is developed and published in a scientific publication, demonstrating the use of Tensor Decomposition based architectural definitions of tensor lite networks and transfer learning on stream data sets.
• Credentials
• I have participated successfully in several element14 design challenges and complex Road Tests. These projects are referenced to demonstrate how fully I participate in Design Challenges successfully, my level of technical capabilities and the diligence of my blog postings.The success, in previous competitions, like the Sustain The World Challenge speaks volumes on my capabilities at design technology.
• Summary & Notes
• The Rest The Pest project represents a unifying demonstration of several technologies we have developed at Mutter Gottlich and Bheemaiah Corporation, in the past decade, an illustration of Tensor Decomposition approaches, and the use of Tensor Flow on a simple Pi hardware base, with the integration of the kit, the sensor HAT modules and 3D printed housing for the electronics and the cameras, the hardware is straightforward in implementation, while the design of delta wave transducers remains the only challenge, a challenge worth the resources, in the applicability of an innovative approach to pest issues, a kind compassionate approach to pest mitigation, by rest.This project remains a valuable endeavor in my flow- trail, my experience and should be in its completion, yet another feather in my cap.
  • BME280 temperature, pressure, humidity sensor (datasheet)
  • LTR-559 light and proximity sensor (datasheet)
  • MEMS microphone
  • Experimental meter cubes will be created to data mine sensor information, deep learned to create deep feed back loops of quantified control loops, burst patterns of sleep synth neurons, bursting in blasts of delta sleep cycles, in a loop over bio-metric triggers.
  • BME280 temperature, pressure, humidity sensor (datasheet)
  • LTR-559 light and proximity sensor (datasheet)
  • MEMS microphone