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Welcome to our resource hub! All content and software on this page are completely free of charge—no paywalls, ads demos, or time trials. The software is fully complete and regularly updated. If you’d like to support our efforts, consider making a donation; it helps fund our resources and keeps everything accessible for everyone.
APPYDROID SLS V1.2 SOFTWARE FOR WINDOWS
Our brand new APPYDROID SLS Version 1.2 Features and updates.
Step into the future of paranormal investigation with APPYDROID SLS V1.1, the revolutionary software that transforms your computer into an advanced anomaly detection system. Designed for both professional investigators and curious explorers, APPYDROID SLS utilizes a suite of sophisticated AI-driven tools to visualize, track, and record phenomena beyond the limits of human perception. Are you ready to see what's been hiding in the shadows?
Unparalleled AI-Powered Features
APPYDROID SLS is more than just a camera—it's an intelligent analytical partner for your investigations. We leverage cutting-edge machine learning models to provide you with data and insights like never before.
1. Advanced SLS Skeletal Tracking (PER)
Our core feature uses a powerful Structured algorithm to perform real-time body tracking. By analyzing patterns and depth information, the system can identify and map human-like forms, overlaying a skeletal figure on potential apparitions. This isn't just a filter; it's a dynamic tool that may help you visualize and validate the presence of unseen figures, distinguishing them from shadows or pareidolia.
2. Intelligent Object Recognition (OBJ)
How many times has a shadow been mistaken for something more? Our Intelligent Object Recognition system acts as your digital spotter. Powered by a vast neural network, it constantly scans the environment to identify and label everyday objects—from chairs and doors to household items. This powerful feature adds a layer of critical analysis to your investigations, helping you instantly rule out false positives and focus on true anomalies.
3. Real-Time EVP Analyzer & Recorder
Capture the voices of the other side with our advanced Electronic Voice Phenomenon (EVP) toolkit. The live audio spectrogram provides a visual representation of the entire sound spectrum, allowing you to see potential voice patterns as they occur. With the new adjustable EVP Sensitivity control, you can amplify the microphone's gain to capture even the faintest whispers, while the high-quality audio recorder ensures you don't miss a single, crucial moment.
What's New in Version 1.1?
This major update focuses on stability, user control, and professional-grade features, making APPYDROID SLS more powerful and reliable than ever.
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Enhanced Performance & Stability: The desktop application has been optimized for smoother performance, ensuring your investigations run without a hitch.
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Professional Recording Suite: Take control of your evidence. The new Settings panel allows you to select your preferred recording formats, including high-quality .wav for uncompressed audio analysis and standard .mp4 for video, It will default to WEBM Format if your input isnt suitable for high performance recording.
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Adjustable EVP Sensitivity: Fine-tune your audio captures with the new microphone gain slider. Boost the sensitivity to listen for the quietest sounds or lower it in noisy environments to focus on what matters.
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Robust File Management: We've overhauled the file system. Recordings are now temporarily stored in your session, and you can export them with a single click using the native "Save As..." dialog, giving you complete control over where you store your evidence, Remember to save any files you want to keep before closing the software. this ensures that you are not left with junk files on your storage when closing the Software.
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Corrected Thermal Vision: The thermal filter has been rebuilt to simulate high or low temp visualised pallets, We removed the green pallet as it was not required and made it hard to see the Drawn 3D Skelital impressions.
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Disclaimer
APPYDROID SLS is an advanced analytical tool. Although this software uses sophisticated AI for skeletal tracking and object recognition, it is designed to assist investigators and does not claim to detect or validate paranormal occurrences. The user's ability to decide what is deemed paranormal is crucial to any evidence submitted. Furthermore, the performance and reliability of the software's detection capabilities are highly dependent on the quality of the user's equipment, such as the camera and microphone used.
Recommended Specifications
For the best experience with APPYDROID SLS, we recommend the following hardware:
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PC / Laptop:
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Processor: Intel Core i5 (8th Gen or newer) / AMD Ryzen 5 (2000 series or newer).
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RAM: 4GB minimum, 8-16 GB recommended for smoother multitasking while recording.
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Graphics Card: A dedicated graphics card (e.g., NVIDIA GTX 1650 / AMD RX 570 or better) is highly recommended for optimal performance of the visual filters and AI analysis. The software will run on integrated graphics, but performance may vary.
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Camera:
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A high-definition (HD) USB webcam is essential for providing clear data to the AI models. We recommend a camera capable of at least 720p at 30fps. For best results, a 1080p webcam is ideal. Built-in laptop webcams will work, but their quality can limit detection accuracy.
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Microphone:
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For serious EVP sessions, an external USB microphone is strongly recommended. This will significantly reduce internal computer noise (fans, hard drives) and provide clearer, more reliable audio for analysis compared to a standard built-in laptop microphone.
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Download APPYDROID SLS V1.1 Today
The unexplained is waiting. Download the tool that gives you the edge. Explore the unknown with APPYDROID SLS.
TO DOWNLOAD "CLICK HERE"
APPYDROID GHOSTBOX V1.7 SOFTWARE FOR WINDOWS
APPYDROID GHOSTBOX PRO V1.7
Welcome to Appydroid Ghostbox Pro, a sophisticated audio ITC (Instrumental Transcommunication) application designed for both enthusiasts and professional paranormal investigators. This software moves beyond simple sound bank players by incorporating a multi-layered randomization engine, a full suite of real-time audio effects, and advanced monitoring tools to create an unparalleled research experience.
CHANGELOG: V1.7.0
Added Ai generated IP List search tool, Returns a list of user selected URLS To be used as IP Banks.
Added internal house keeping for IP Lists, If a URL Is dead or disconnected the tool will automatically remove it from the list.
Added DIY Bank creator, You can now make your own banks by setting up the App to a sound profile you want to use, Once the App is running the way you want simply press record
Record for the duration you want, Even mix it up and change profile of the sound or selected banks, Make as many recordings as desired then click on the File icon to access the
file manager, You will now see a new EXPORT Function as with the old save feature, You can save the recordings as you always could, or Export them to your dedicated user bank button, USER1 USER2 USER3, Can be used for this purpouse, Select which bank button you want to use then select EXPORT, The recording will then be used as a new internal bank for your chosen button, To edit your DIY Banks Long press on the User bank you want to edit, The manager will pop up you then select OK Button to access the DIY Banks folder where the recordings are exported too, You can delete them, rename them, or even copy them to another directory on your PC, Deleting them restores the folder to default, The next time you open the App the button will be displaying the Red LED Showing the folder is empty, You can also still set your own custom bank directory just like before, Long press on the bank button, Instead of clicking ok, Select cancel, it will then open the file manager, Simply point to your custom bank folder on your PC.
This new feature allows you to quickly create new User banks from any of the sources available to you, Create unique sounding banks and even use the Line in feature to create
external source audio to record, the choice is your's.
Key Features in version 1.7
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IP RADIO, BUILT IN BANKS, USER BANKS, Real Ghost box from Mic line input support covers all aspects of audio sources you can use.
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Quad-Channel Audio Engine: Run up to four independent audio channels simultaneously, each sweeping at its own randomized interval for a truly chaotic and rich soundscape.
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Advanced Randomization: The core of the engine is designed to eliminate pareidolia by randomizing the sound bank, playback direction (forward/reverse), and audio start position for every single sweep.
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Full-Featured Effects Suite: Shape your session audio in real-time with professional-grade effects including Echo (with Feedback control), Reverb, Pitch, Drive, a Low-Pass Filter (LPF), Flanger, and Tremolo.
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NEW - External Device Mode: Connect a physical Ghost Box, radio, or any external device to your PC's mic input and process its audio live through the app's effects chain!
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Onboard Recording & Playback: Capture your sessions (main mix or raw mic) and review them in the built-in File Manager.
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Live Monitoring Station: Keep an eye on your environment and system performance with a bank of glowing, analog-style VU meters for Mic, Main Output (VU), CPU usage, and RAM usage.
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Customizable Sound Banks: Use the multiple built-in sound banks or easily load up to four of your own custom banks. The "Bank Mixer" allows you to blend multiple banks together as a single audio source.
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New in Version 1.6: Using an External Ghost Box and IP RADIO As sound sources.
You can now use your own physical hardware as the audio source and process it through the app's powerful effects and recording system.
What You'll Need
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An External Audio Source: A physical ghost box, scanner, or radio with a standard headphone/line-out port.
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An Audio Cable: A standard 3.5mm to 3.5mm male-to-male audio cable (often called an "aux cable").
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An External Speaker: A speaker to connect to your computer's headphone jack so you can hear the final, processed audio.
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Optional) USB Sound Card: If your computer does not have a microphone/line-in port, a simple USB sound card/adapter will work perfectly.
Setup Instructions
For the best experience, please follow these steps in order:
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Connect All Hardware FIRST: Before launching the app, connect everything.
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Connect an audio cable from your Ghost Box's headphone/output port to your computer's microphone/line-in port.
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Connect your external speaker to your computer's headphone port.
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Launch the App: Open the Appydroid Ghostbox Pro application.
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Activate Live Input: On the left-hand panel, find the AUXILIARY CONTROLS section.
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First, click the Power button (⏻) to turn on the monitors.
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Next, click the Live Mic Input button (the microphone icon 🎙️).
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The microphone button will light up, the main sweep controls will be disabled, and you should now hear the audio from your external device through your computer speakers, ready to be manipulated with the app's effects. The main VU meter and waveform display will also react to your external device's audio.
Disclaimer
This application is for entertainment and ITC research. It does not provide proof of communication with spirits or other entities. Users should be aware of pareidolia—the tendency to perceive familiar patterns like voices in random noise—and consider all results critically before concluding them to be evidence of the paranormal.
DEADRINGER V2
MICROPOD V2
Power options & tidbits for our projects
In this section, we will show you the most common methods of powering up your projects not only safely but also correctly, which is largely overlooked in DIY products. Most of our projects use the following power options and methods. The Arduino Nano projects are somewhat more versatile as they can be powered from many sources. For LiPo cell power, you must use the 5V pin unless introducing a 3.7V - 5V+ power booster, also known as boost or buck converters. These devices step up the lower 3.7V to a modest voltage range. The Nano boards two ways to power them: the Vin pin, which can handle a modest 12V but will suffer brownouts below 5V, particularly if your circuit is demanding. This means you can run the board and often some of its components, if rated for this voltage, from a common power source like a 9V cell. However, depending on amp, this may not be the most efficient way, as 9V cells often have low capacity of around 600mAh, which would power a Nano board with a few low-power circuits for around 4- hours. Typically, for longevity and, many will opt for a LiPo cell. LiPo cells are a great way to power your devices, as they have a much shorter roll-off and retain peak power throughout the charge capacity. All LiPo cells typically output around 4.2V when charged and roll off to around 3V steeply at the end of the charge capacity, giving a much longer usage time over traditional batteries. The good thing about the Arduino boards is they can often be powered directly from a LiPo cell without any additional regulators or buck converters. The5V pin bypasses the Nano's internal voltage regulators, as the board can be powered from3-5V from this pin. As long as you don't exceed this voltage, the Nano will function just fine. If your power source is higher than, you must use the VIN pin, which has a typical range from 5V to 12V safely. However, note that the regulator on the Nano dissipates this extra voltage as heat which is wasted power. This is good for voltage applications but poor for efficiency. There are trade-offs with all options, so it's really your own preference, and typically the voltage should be when planning your build and the components you intend to use on it, along with the amp draw of the total circuit. LiPo cells are great for low amp and more demanding applications up to around 1 amp, which provides plenty of overhead for our projects, as most of them never exceed this and are within the 500-600 milliamp range. You will also notice that a lot of our schematics don't show the power options connected; this is so you can choose how to power it. Below are the three typical options used in both Arduino Nano powered devices and ESP32-based devices, which both require different power management The Nano boards are, as I mentioned above, more versatile. However, the ESP32 boards can be easily damaged if not used correctly. They must be regulated after the power source. For example, using a LiPo cell, the voltage won't be enough to run the ESP32, so it has to be stepped up to 5V max to run the board effectively. Ensure that the regulator used is properly calibrated to not exceed 5V or you may permanently damage the board. The VIN pin expects a voltage of around 4.2 - 5V which isn't a wide window for error, so always check that the supply voltage is within this range before to power on the board,
Here are the 2 most common ways to power the Arduino Nano, Lipo cell on the left, And 9V On the right, The right side can also use 4xAA Cells for example.
You will notice that the positive side is always switched. This is not important, but it has some benefits to this method. Typically, all off-the-shelf components and parts what's called "common ground." This means most of the parts on that component are connected via the same input source. When you connect all your parts together in a circuit, all those now share the same common ground. However, the positive rail, that voltage passes through all the components of your circuit regardless of whether they're switched on or off. By isolating at the battery, you have essentially completely isolated the circuit, which can prevent a few issues. One issue is that voltage can be stored in capacitors and other electrical parts when the positive rail is on in the circuit. The common ground effect can still cause some energized parts to remain, even though the circuit is disconnected from the ground pin at the battery. Another reason is safety. While working on your projects with the battery installed this is one of the most crucial parts of the build that can go wrong, for example, short circuits. Even though the ground pin is from the battery, the positive rail can still short out if you accidentally touch the positive rail to ground at any point. This can component damage or pose risks of burns, fire or explosions. Lithium polymer (LiPo) cells need particularly careful attention, as they are extremely volatile when shorted out.
POWERING THE ESP32 PROJECTS
In this section, I'll explain the ESP32 power circuit. Typically, ESP32-based projects use an 800mAh cell for the ParaTek V7 and sensor module, but a larger cell can be accommodated with a custom case. The circuit includes two 10k resistors that serve as voltage dividers for battery level monitoring, ensuring safe voltage levels for the ESP32 pins The green board labeled 'voltage' is a V voltage regulator or buck converter, which powers the ESP32 board, with specific connections for the screen, mini amplifier, and Neopixel ring. **Battery Safety Tips:** - Charge your LiPo every 3-4 weeks to prevent parasitic drain from the charge controllers. - Never leave devices unattended or charging, and regularly check the charge status LED. - Do not operate devices while charging, as this can lead to overcharging or battery damage. - When installing LiPo cells, connect one lead at a time to avoid shorts, and ensure the battery is securely placed to avoid pinching or piercing.
Introducing the AppyDroid Digital Ghost Box 👻
The AppyDroid Digital Ghost Box is a unique device designed to create a rich, synthesized vocal soundscape for spirit communication research. At its heart is the powerful SpeakJet IC, a chip capable of generating a wide range of human-like phonetic sounds.
Unlike traditional ghost boxes that scan radio frequencies or apps that use pre-recorded soundbanks, the AppyDroid is fundamentally different. It has no radio and no stored audio files. The device does not say words or phrases. Instead, it uses the SpeakJet's processor to generate a constant, randomized stream of phonetic sounds—the basic building blocks of speech.
The principle is similar to a traditional radio ghost box: by providing a dynamic and random audio stream, it may be possible for spirit entities to manipulate the sounds to form intelligent words and phrases. Because every sound is synthesized in real-time by the chip itself, it offers a pure and isolated environment for potential communication, making it a truly unique tool for the modern paranormal investigator.
Breakdown of Functions
The AppyDroid is designed for both hands-on manipulation and unpredictable, automated operation. Here’s how to use its controls:
Master Enable Switch
This is the main power control for the audio stream.
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OFF Position: The device is silent.
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ON Position: The SpeakJet chip is active and will begin generating phonetic sounds based on the current mode and knob settings.
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Mode Select Button
This momentary push-button toggles between the two primary operational modes: Manual and Auto.
Manual Mode Controls 🎛️
When in Manual Mode, you have full tactile control over the characteristics of the synthesized voice.
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SPEED Knob: Controls the rate at which the phonetic sounds are generated. Turn it down for a slower, more deliberate stream, or turn it up for a faster, more frantic output.
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PITCH Knob: Adjusts the base tone of the voice. This allows you to set the voice anywhere from a very low, deep tone to a high-pitched one.
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BEND Knob: This unique control adjusts the pitch slide between phonemes. A low setting results in an abrupt, robotic transition between sounds, while a higher setting creates a smoother, more fluid and "musical" vocal effect.
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Auto Mode 🤖
A single press of the Mode Select Button engages Auto Mode. In this state, the control knobs are bypassed. Instead of using fixed settings, the device will instantly randomize the Speed, Pitch, and Bend for every single phoneme that is generated. This creates a completely unpredictable, chaotic, and constantly shifting soundscape, providing an ideal, hands-free environment for EVP sessions.
No libraries are required for this project, However sourcing the SpeakJet chips nowadays are somewhat of a challenge, which is why this project was never built.
You can use Arduino Nano for this build you just need to use the correct pins for the Nano boards.
Download the code and the schematics in the link here >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>