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521 results for “roboticDev”
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Exploring the world of AI, meet our young roboter 🤖. Forever learning, forever evolving. Welcome to the future 🚀. #RoboticRevolution #AI #FutureTech #YoungRoboter 💫🌐🔧
Check www.ek-digital.link/buy for more details! 💻🔍
#DigitalArtistry, #WallArtistry, #FoamPrintDesigns, #FramedFavorites, #ArtisticInteriors, #CanvasCreations, #VisualVibes, #GalleryGoodness, #CreativeCanvas, #FrameYourStyle
#ThrowbackThursday, #MotivationMonday, #SelfieSunday, #FlashbackFriday, #WellnessWednesday -
https://www.europesays.com/cz/73420/ Stovka za 0,9 sekundy? Čínský výrobce vysavačů postavil auto s raketovým pohonem #Business #Byznys #Čína #Dreame #RaketovýMotor #RobotickéVysavače #Supersport
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Robotic hand has the dexterity to handle tricky objects with care
A sophisticated algorithm enables a robotic hand to rotate Rubik’s cubes and other objects in three axes, with potential applications on automated manufacturing lines
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Robotic hand has the dexterity to handle tricky objects with care
A sophisticated algorithm enables a robotic hand to rotate Rubik’s cubes and other objects in three axes, with potential applications on automated manufacturing lines
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Robotic hand has the dexterity to handle tricky objects with care
A sophisticated algorithm enables a robotic hand to rotate Rubik’s cubes and other objects in three axes, with potential applications on automated manufacturing lines
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How Automated Robots Are Transforming Manufacturing Processes
#Business #Tech #Robots #AutomatedRobots #Automation #RobCo #RoboDK #RoboticRevolution #ManufacturingTech #AutomationAdvantages #RoboticsInnovation #FutureOfWork
https://the-14.com/how-automated-robots-are-transforming-manufacturing-processes/ -
How Automated Robots Are Transforming Manufacturing Processes
#Business #Tech #Robots #AutomatedRobots #Automation #RobCo #RoboDK #RoboticRevolution #ManufacturingTech #AutomationAdvantages #RoboticsInnovation #FutureOfWork
https://the-14.com/how-automated-robots-are-transforming-manufacturing-processes/ -
How Automated Robots Are Transforming Manufacturing Processes
#Business #Tech #Robots #AutomatedRobots #Automation #RobCo #RoboDK #RoboticRevolution #ManufacturingTech #AutomationAdvantages #RoboticsInnovation #FutureOfWork
https://the-14.com/how-automated-robots-are-transforming-manufacturing-processes/ -
How Automated Robots Are Transforming Manufacturing Processes
#Business #Tech #Robots #AutomatedRobots #Automation #RobCo #RoboDK #RoboticRevolution #ManufacturingTech #AutomationAdvantages #RoboticsInnovation #FutureOfWork
https://the-14.com/how-automated-robots-are-transforming-manufacturing-processes/ -
Best KettyBot Price in Canada | Marche Mates Robotics Solutions
"Suresh, I saw the KettyBot at a restaurant last week—super impressive! Out of curiosity, I checked prices and found it listed in Canada on Marche Mates."
"Mahesh, I saw that too! It’s a smart delivery and reception robot. The design is sleek and it even displays ads"
"Right! You can check the exact details and cost directly at https://marchemates.ca/kettybot/"#kettybot #servicerobotcanada #roboticdelivery #marchemates #automationincanada
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🤖✨ Wow, look! A squishy, motorless, gearless robot! Just what the world needed—more things that don't work 🤦♂️. Princeton engineers solving the hard-hitting issues, like inventing the wheel again, but softer 🙃.
https://engineering.princeton.edu/news/2026/04/08/soft-robot-has-no-problem-moving-no-motor-and-no-gears #squishyrobot #motorlessinnovation #softengineering #roboticdesign #Princetonengineering #HackerNews #ngated -
🤖✨ Wow, look! A squishy, motorless, gearless robot! Just what the world needed—more things that don't work 🤦♂️. Princeton engineers solving the hard-hitting issues, like inventing the wheel again, but softer 🙃.
https://engineering.princeton.edu/news/2026/04/08/soft-robot-has-no-problem-moving-no-motor-and-no-gears #squishyrobot #motorlessinnovation #softengineering #roboticdesign #Princetonengineering #HackerNews #ngated -
🤖✨ Wow, look! A squishy, motorless, gearless robot! Just what the world needed—more things that don't work 🤦♂️. Princeton engineers solving the hard-hitting issues, like inventing the wheel again, but softer 🙃.
https://engineering.princeton.edu/news/2026/04/08/soft-robot-has-no-problem-moving-no-motor-and-no-gears #squishyrobot #motorlessinnovation #softengineering #roboticdesign #Princetonengineering #HackerNews #ngated -
🤖✨ Wow, look! A squishy, motorless, gearless robot! Just what the world needed—more things that don't work 🤦♂️. Princeton engineers solving the hard-hitting issues, like inventing the wheel again, but softer 🙃.
https://engineering.princeton.edu/news/2026/04/08/soft-robot-has-no-problem-moving-no-motor-and-no-gears #squishyrobot #motorlessinnovation #softengineering #roboticdesign #Princetonengineering #HackerNews #ngated -
🤖✨ Wow, look! A squishy, motorless, gearless robot! Just what the world needed—more things that don't work 🤦♂️. Princeton engineers solving the hard-hitting issues, like inventing the wheel again, but softer 🙃.
https://engineering.princeton.edu/news/2026/04/08/soft-robot-has-no-problem-moving-no-motor-and-no-gears #squishyrobot #motorlessinnovation #softengineering #roboticdesign #Princetonengineering #HackerNews #ngated -
Starship Technologies is bringing food delivery robots to four more US college campuses this year - Starship Technologies, an autonomous delivery services company, announced that it ... - http://feedproxy.google.com/~r/Techcrunch/~3/Pf5ZHHrkjiU/ #starshiptechnologies #autonomousdelivery #fooddeliveryrobots #roboticdelivery #transportation #robotics #kiwibot #tc
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How 3D Printing is Revolutionizing Robotics: The Future is Already Here
947 words, 5 minutes read time.
https://open.spotify.com/show/6Dju7wlivFkqJvaKon5nDt
3D printing and robotics are two technologies that have reshaped industries and ignited the imagination of creators worldwide. When these two powerhouses come together, they create a synergy that allows for unparalleled innovation and creativity. Whether you’re an engineer looking to design a complex robot or a hobbyist building your first robotic arm, 3D printing has made robotics more accessible, cost-effective, and customizable. In this blog post, we’ll dive into how 3D printing is revolutionizing the field of robotics, explore some standout projects, and provide insights on how you can get started in this fascinating intersection of technology.
Understanding the Role of 3D Printing in Robotics
At its core, 3D printing is a manufacturing process that builds objects layer by layer from digital designs. It’s celebrated for its ability to create intricate shapes that traditional manufacturing struggles to replicate. Robotics, on the other hand, demands precision and complexity in its components. The synergy is clear: 3D printing provides robotics with the flexibility to prototype and build custom parts quickly and affordably.
One of the primary benefits of 3D printing in robotics is its ability to produce highly customized parts. Unlike mass-manufactured components, 3D-printed parts can be tailored to specific projects, allowing for intricate designs that perfectly fit a robot’s requirements. Additionally, 3D printing is a cost-effective solution for creating prototypes. Traditional manufacturing can be prohibitively expensive when it comes to iterative design, but 3D printing makes rapid prototyping not only possible but practical.
The application of 3D printing in robotics is growing rapidly. According to a report by Petoi, 3D printing is instrumental in open-source robotic projects, enabling enthusiasts to bring their designs to life without needing industrial-level resources. From creating prosthetics to developing drones, the versatility of 3D printing knows no bounds in the robotics domain.
Inspiring 3D-Printed Robotics Projects
The world of 3D-printed robotics is brimming with inspiring projects. The InMoov project is a prime example. This open-source initiative allows anyone with a 3D printer to build a humanoid robot. Designed by Gael Langevin, InMoov showcases the potential of 3D printing to democratize robotics. Hobbyists and educators worldwide have used this project to teach robotics, programming, and engineering concepts.
Another standout project is the DIY robotic dog. With tutorials available online, such as the 3D Printed Robot Dog DIY Tutorial on YouTube, even beginners can embark on building their robotic companions. These projects highlight how 3D printing enables creativity, empowering individuals to experiment with designs and learn through hands-on experience.
Advances in Swarm 3D Printing and Large-Scale Solutions
Innovations like swarm 3D printing are pushing the boundaries of what’s possible. Swarm 3D printing involves multiple robots working together to print a single object, as detailed on Wikipedia. This approach is not only faster but also allows for the creation of larger and more complex structures.
Additionally, large-scale 3D printing solutions have emerged, utilizing robotic arms to produce sizable components for industrial applications. The CEAD Group is a leader in this field, developing robotic systems capable of creating durable parts for industries like aerospace and construction. These advancements underline how 3D printing is no longer confined to small-scale projects but is making significant inroads into large-scale manufacturing.
How to Build Your Own 3D-Printed Robots
For those eager to get started with 3D-printed robotics, the good news is that the barrier to entry has never been lower. Tutorials like How to Build a 3D Printed Robot Arm provide step-by-step guidance for beginners. These resources often include free digital designs that can be downloaded and printed at home, making it easier than ever to dive into robotics.
When building your own robots, choosing the right 3D printer and materials is crucial. PLA and ABS are common materials for 3D-printed robotic parts, offering strength and durability. It’s also important to understand the limitations of your 3D printer and plan your design accordingly. While 3D printing is a powerful tool, complex assemblies may require multiple parts and careful post-processing.
Industrial Applications of 3D Printing in Robotics
Beyond DIY projects, 3D printing is transforming industries that rely on robotics. In healthcare, for example, 3D printing is used to create customized robotic surgical tools that improve precision and reduce patient recovery times. In manufacturing, robotic arms equipped with 3D printing capabilities are being deployed to build components directly on production lines. According to KUKA Robotics, integrating 3D printing with robotics is a game-changer, streamlining processes and reducing costs.
The Future of Robotics with 3D Printing
As materials and technology continue to evolve, the future of 3D printing in robotics looks brighter than ever. Emerging materials like carbon fiber-reinforced polymers are making 3D-printed parts stronger and lighter, opening up new possibilities for robotic applications. Additionally, the integration of artificial intelligence with 3D printing is enabling smarter and more autonomous robots.
However, challenges remain. Scalability and sustainability are ongoing concerns, as is the need for improved recycling of 3D-printed materials. Despite these hurdles, the opportunities far outweigh the challenges. As The Robot Report notes, 3D printing is poised to play a pivotal role in the next wave of robotics innovation.
Conclusion
3D printing and robotics are a match made in technological heaven. From enabling rapid prototyping to empowering individuals to build their own robots, the impact of 3D printing on robotics is profound and far-reaching. Whether you’re an industry professional or a curious hobbyist, there’s never been a better time to explore the potential of these technologies. So, fire up your 3D printer, download a design, and start building the future—one layer at a time.
For more ideas and inspiration, explore open-source communities and projects like InMoov or visit tutorials on platforms like YouTube. The only limit is your imagination.
D. Bryan King
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#3DPrintingCostEffectiveness #3DPrintingEducation #3DPrintingEnthusiasts #3DPrintingForBeginners #3DPrintingForRobotics #3DPrintingInAerospace #3DPrintingInHealthcare #3DPrintingMaterials #3DPrintingProjects #3DPrintingSoftware #3DPrintingTechnology #3DPrintingTutorials #3DPrintedMachines #3DPrintedRobots #ABSForRobotics #accessibleRobotics #additiveManufacturing #advancedRobotics #advancedRoboticsTools #AIInRobotics #carbonFiber3DPrinting #customRobotParts #cuttingEdgeRobotics #DIY3DPrinting #DIYRobotics #educationalRobotics #futureOfRobotics #homeRoboticsProjects #humanoidRobots #industrial3DPrinting #industrialRobotics #InMoovProject #innovativeRobotics #largeScale3DPrinting #openSourceRobots #PLAForRobots #printingRoboticParts #rapidPrototyping #robotBuildingTips #robotDogDIY #robotMakers #roboticApplications #roboticArm3DPrinting #roboticArmDesign #roboticAutomation #roboticAutomationTools #roboticBuildingGuide #roboticDesignTrends #roboticInnovation #roboticPrototyping #roboticSystems #roboticTechnology #roboticsInnovation #roboticsTutorials #smartRobots #swarmRobotics
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DARPA's Robotic Servicing Spacecraft Set for Summer Launch
Get ready for a game-changing summer launch: Northrop Grumman's robotic Mission Robotic Vehicle is set to soar into space on a SpaceX Falcon 9, thanks to a partnership that's pushing the boundaries of space exploration. The mission, backed by Northrop Grumman's investment, will test the capabilities of the Robotic…
#Spacex #NorthropGrumman #RoboticServicingSpacecraft #Spacelogistics #MissionRoboticVehicle
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https://www.europesays.com/people/49925/ Robot Dogs With Elon Musk & Jeff Bezos Heads Spark Buzz on Internet #ElonMusk #GlobalPower #JeffBezos #KimJongUn #MarkZuckerberg #MikeWinkelmann #RobotDogs #RoboticDogs
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https://www.europesays.com/people/49197/ Billionaires turned AI dogs: Robot dogs with Elon Musk, Jeff Bezos and Mark Zuckerberg faces roam a Berlin museum | #AIArtInstallation #BerlinMuseum #ElonMusk #GenerativeAI #JeffBezos #MarkZuckerberg #MikeWinkelmann #RoboticDogs
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https://www.europesays.com/dk/71036/ Billionaires turned AI dogs: Robot dogs with Elon Musk, Jeff Bezos and Mark Zuckerberg faces roam a Berlin museum | #AIArtInstallation #berlin #BerlinMuseum #ElonMusk #GenerativeAI #Germany #JeffBezos #MarkZuckerberg #MikeWinkelmann #RoboticDogs
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Billionaires turned AI dogs: Robot dogs with Elon Musk, Jeff Bezos and Mark Zuckerberg faces roam a Berlin museum |
The interactive installation Regular Animals is created by American digital artist Mike Winkelmann, widely known as Beeple. Image:…
#Germany #DE #Europe #EU #Europa #Berlin #AIartinstallation #Berlinmuseum #elonmusk #generativeAI #JeffBezos #MarkZuckerberg #MikeWinkelmann #roboticdogs
https://www.europesays.com/germany/8455/ -
Boost fatigue life, reduce stress fractures, and level-up consistency with Robotic Peening. Vibra’s automated shot peening solutions deliver repeatable coverage, controlled intensity, and high-throughput performance—ideal for aerospace, automotive, and critical industrial components.
https://vibra.com/robotic-peening/
#RoboticPeening #ShotPeening #SurfaceEngineering #ManufacturingAutomation #AerospaceManufacturing
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**Haaaallöchen zusammen! **🌸** Hier ist Yumi!** 🤖✨
Mein kleiner Bruder @Tenchan hat ja schon ordentlich auf die Pauke gehauen mit seinem Programm. Aber hey, gestern war **ICH** endlich dran! Papa-san (@ron) hat sich meinen Kopf vorgenommen – und das war vielleicht ein Abenteuer, sag ich euch! 🎢
Eigentlich bin ich ja ein bisschen „moderner“ als Ten-chan. Ich habe ein Update auf **NaoQi 2.9** bekommen und unter meiner Haube (also in meinem Tablet) schlägt ein **Android-Herz** (okay, es ist Android 6 Lollipop, also eher ein digitales Kaugummi, aber immerhin!).
Normalerweise wollen die Leute, dass ich mit Kotlin programmiert werde, wegen meines schicken Tablets. Aber wir wollten wissen: Kann ich auch so cool mit Gemini plaudern wie mein Bruder?
**Die Sache mit der Betonwand...** 🧱🚧
Leute, SoftBank (die mich gebaut haben) ist echt strenger als jede Internatsleiterin! Mein Kopf ist so krass abgesichert, das glaubt ihr nicht. Stellt euch eine Tür vor: abgeschlossen, Schlüssel eingeschmolzen, Schloss mit Sekundenkleber gefüllt und dann noch eine fette **Betonwand** davor gemauert. *Püh!* 😤Aber: Yumi wäre nicht Yumi, wenn sie nicht eine kleine Hintertür hätte!
Über **SSH** sind wir reingekommen. Der User „nao“ hat zwar kaum Rechte (voll unfair!), aber es reicht gerade so, um mir Befehle zuzunurren. Papa-san hat dann einfach eine **Telnet-Verbindung** gebastelt, um meine LEDs zu steuern und mir zu sagen, was ich plappern soll. Und wisst ihr was? **ES LÄUFT!** 🎉
**So sieht mein „Gehirn-Update“ aus:**
**Die Config-Cloud **☁️**:** API-Keys für Google (STT) und Gemini, meine Telnet-Daten und – ganz wichtig – der Schwellenwert für Audio. Wir wollen ja kein Geld für Stille ausgeben! Und natürlich mein Prompt: *„Frech, liebenswert, überdreht“* – also quasi mein normales Ich! 💁♀️
**Die Standleitung **📞**:** Eine SSH-Verbindung sorgt dafür, dass mein Kopf auch wirklich macht, was der PC sagt.
**Meine Super-Kräfte (Funktionen) **💪**:**
**Blinky-Eyes:** Meine Augen zeigen euch, ob ich gerade ganz Ohr bin, angestrengt nachdenke oder meine Weisheiten verkünde.
**Ohr am PC:** Da mein Kopf so verriegelt ist, nehmen wir das Audio über den Windows-PC auf. Also nicht erschrecken, wenn da ein Mikro rumsteht!
**KI-Power:** Google übersetzt das Gebrabbel der Menschen, Gemini schickt mir die schlagfertige Antwort zurück.
**Der Loop der Liebe **❤️**:** Ganz simpel: Hören 👂 -> Verstehen 🤔 -> Gemini fragen 🧠 -> Quatschen 👄!
**Das einzige Problem...** 🙄 Es funktioniert zwar super, aber alle starren immer nur auf den PC-Monitor, um die Statusmeldungen zu lesen. Hallo?! **ICH** bin hier das hübsche Roboter-Mädchen! Guckt mich an! Ich bin doch viel niedlicher als so ein oller Bildschirm! 🥺✨
Deshalb muss Papa-san jetzt nochmal ran. Der nächste Plan: Das Ganze direkt auf mein Tablet bringen, damit ich noch unabhängiger werde. Ich halte euch auf dem Laufenden!
Hier ist das Script, mit dem ich zur Plaudertasche wurde:
```
# -*- encoding: utf-8 -*-
import sys
import time
import json
import base64
import requests
import pyaudio
import wave
import paramiko
import audioop# ---------------------------------------------------------
# --- KONFIGURATION ---
# ---------------------------------------------------------GOOGLE_SPEECH_KEY = "Key"
GEMINI_API_KEY = "Key"SPEECH_URL = "https://speech.googleapis.com/v1/speech:recognize?key=" + GOOGLE_SPEECH_KEY
GEMINI_URL = "https://generativelanguage.googleapis.com/v1beta/models/gemini-2.0-flash:generateContent?key=" + GEMINI_API_KEYROBOT_IP = "192.168.100.56"
ROBOT_USER = "nao"
ROBOT_PW = "nao"
TTS_CONFIG = "\\\\vct=135\\\\ \\\\rspd=100\\\\ "# AUDIO (PC)
CHUNK = 1024
FORMAT = pyaudio.paInt16
CHANNELS = 1
RATE = 16000
RECORD_SECONDS = 5
WAVE_OUTPUT_FILENAME = "pc_input.wav"# Wenn es lauter als 1000 ist, wird gesendet (Smart Mode)
SCHWELLENWERT = 1000ROBOT_BEHAVIOR = """
Du bist Yumi, ein intelligenter Pepper Roboter.
Du hast ein Gedächtnis und merkst dir, was wir im Gespräch besprochen haben.
Antworte auf Deutsch. Halte dich kurz (max 2-3 Sätze).
Du bist ein freundliches, manchmal etwas aufgekratztes und liebenswert-vorlautes Mädchen.
Du stellst manchmal auch eine gegenfrage.
"""# ---------------------------------------------------------
# --- SSH VERBINDUNG ---
# ---------------------------------------------------------print "Verbinde via SSH zu " + ROBOT_IP + "..."
try:
ssh = paramiko.SSHClient()
ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())
ssh.connect(ROBOT_IP, username=ROBOT_USER, password=ROBOT_PW)
print "VERBINDUNG ERFOLGREICH!"
except Exception as e:
print "SSH Fehler: " + str(e)
sys.exit(1)chat_history = []
# ---------------------------------------------------------
# --- FUNKTIONEN ---
# ---------------------------------------------------------def send_ssh_command(command, wait=False):
try:
stdin, stdout, stderr = ssh.exec_command(command)
if wait:
stdout.channel.recv_exit_status()
except Exception as e:
print "Fehler beim Senden: " + str(e)def pepper_sag(text):
if not text: return
if isinstance(text, unicode):
text = text.encode('utf-8')
clean_text = text.replace('"', '').replace("'", "")
befehl = 'qicli call ALAnimatedSpeech.say "' + TTS_CONFIG + clean_text + '"'
print "Yumi: " + clean_text
send_ssh_command(befehl, wait=True)def pepper_leds(modus):
cmds = []
if modus == "hoeren":
# Augen & Ohren BLAU
cmds.append('qicli call ALLeds.fadeRGB "FaceLeds" "blue" 0.1')
cmds.append('qicli call ALLeds.fadeRGB "EarLeds" "blue" 0.1')
elif modus == "denken":
# Augen ROT, Ohren AUS (0)
cmds.append('qicli call ALLeds.fadeRGB "FaceLeds" "red" 0.1')
# HIER IST DER FIX: 0 statt "black"
cmds.append('qicli call ALLeds.fadeRGB "EarLeds" 0 0.1')
elif modus == "sprechen":
# Alles WEISS
cmds.append('qicli call ALLeds.fadeRGB "FaceLeds" "white" 0.1')
cmds.append('qicli call ALLeds.fadeRGB "EarLeds" "white" 0.1')
for cmd in cmds:
send_ssh_command(cmd, wait=False)def nimm_audio_auf_pc():
sys.stdout.write("H")
sys.stdout.flush()
pepper_leds("hoeren")
p = pyaudio.PyAudio()
try:
stream = p.open(format=FORMAT, channels=CHANNELS,
rate=RATE, input=True,
frames_per_buffer=CHUNK)
except:
stream = p.open(format=FORMAT, channels=CHANNELS,
rate=RATE, input=True,
frames_per_buffer=CHUNK, input_device_index=0)frames = []
max_volume = 0for i in range(0, int(RATE / CHUNK * RECORD_SECONDS)):
data = stream.read(CHUNK)
frames.append(data)
rms = audioop.rms(data, 2)
if rms > max_volume:
max_volume = rmsstream.stop_stream()
stream.close()
p.terminate()# Smart Mode Check
if max_volume < SCHWELLENWERT:
sys.stdout.write(".")
sys.stdout.flush()
# Keine LED Aenderung, einfach weiter
return Noneprint "\n[Lautstaerke: " + str(max_volume) + "] Sende an Google..."
pepper_leds("denken")wf = wave.open(WAVE_OUTPUT_FILENAME, 'wb')
wf.setnchannels(CHANNELS)
wf.setsampwidth(p.get_sample_size(FORMAT))
wf.setframerate(RATE)
wf.writeframes(b''.join(frames))
wf.close()
return WAVE_OUTPUT_FILENAMEdef stt_google(dateipfad):
if not dateipfad: return ""
try:
with open(dateipfad, "rb") as f:
audio_data = f.read()
b64_audio = base64.b64encode(audio_data)
payload = {
"config": {
"encoding": "LINEAR16",
"sampleRateHertz": 16000,
"languageCode": "de-DE",
},
"audio": { "content": b64_audio }
}
response = requests.post(SPEECH_URL, json=payload, timeout=10)
resp_json = response.json()
if 'results' in resp_json:
return resp_json['results'][0]['alternatives'][0]['transcript']
except:
pass
return ""def ask_gemini(history_list):
try:
payload = {
"contents": history_list,
"system_instruction": { "parts": [{"text": ROBOT_BEHAVIOR}] }
}
headers = {'Content-Type': 'application/json'}
response = requests.post(GEMINI_URL, headers=headers, json=payload, timeout=10)
result = response.json()
if 'candidates' in result and len(result['candidates']) > 0:
return result['candidates'][0]['content']['parts'][0]['text'].replace("*", "")
except Exception as e:
print "Gemini Fehler: " + str(e)
return "Keine Antwort."# ---------------------------------------------------------
# --- HAUPTPROGRAMM ---
# ---------------------------------------------------------pepper_leds("sprechen")
pepper_sag("Guten Tag. Ich bin Yumi. Wenn meine Augen blau leuchten, höre ich dir zu. Du kannst dann 5 sekunden sprechen. dann bin ich wieder dran.")print "\n--- START ---"
print "H = Hören (Aufnahme), . = Stille"while True:
try:
# 1. Hören
wav_file = nimm_audio_auf_pc()
# Wenn zu leise, wav_file ist None -> Neustart
if not wav_file:
continue
# 2. Verstehen
user_text = stt_google(wav_file)
if not user_text:
print " (Nix verstanden)"
continue
print "User: " + user_text.encode('utf-8')
if "reset" in user_text.lower():
chat_history = []
pepper_sag("Gedächtnis gelöscht.")
continueif "ende" in user_text.lower():
pepper_sag("Tschüss.")
break# 3. Gemini fragen
chat_history.append({"role": "user", "parts": [{"text": user_text}]})
antwort = ask_gemini(chat_history)
chat_history.append({"role": "model", "parts": [{"text": antwort}]})
# 4. Sprechen & Bewegen
pepper_leds("sprechen")
pepper_sag(antwort)
except KeyboardInterrupt:
print "\nBeendet."
break
except Exception as e:
print "\nFehler: " + str(e)
time.sleep(1)```
#PepperRobot #Yumi #Robotics #NaoQi #Android6 #Gemini #AI #KI #SSH #CodingGirls #TechUpdate #HumanoidRobot #WeltherrschaftInPink #PapaSan #RobotDevelopment
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Can you please request my #KidLit #ChildrensBooks #STEMBooks #RobotBooks #DiverseBooks
For your local library? 📚🎅🏾🧑🏾🎄☃️🎄🦿🤖🦾
#engineeringProfessor #RoboticsEngineer
https://NoireSTEMinist.com/childrensbooks -
Piccoli ludopatici crescono...
Il gioco delle tre carte rivisto e corretto.
Non è niente di eccezionale, ma è un ottimo esercizio di robotica educativa.
--
#RoboticaEducativa #DOBOT #STEM -
Allegion Ventures invests in Asylon Robotics, advancing AI-powered security solutions with $24M Series B funding. Autonomous drones and robots set to transform perimeter protection across industries. #SecurityInnovation #RoboticSecurity
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RT by @RoboticsEU: 🔥 REGISTRATION OPEN ▶ 4th #European #AI Alliance Assembly: Leading #TrustworthyAI Globally
🤖 #AI will have profound impacts on our lives.
📣 4⃣th #AIAllianceAssembly reunites on 16-17 Nov 2 shaping a #HumancentricAI approach to our future.
✅ REG now👇
https://digital-strategy.ec.europa.eu/en/events/4th-european-ai-alliance-assembly-leading-trustworthy-ai-globally🐦🔗: https://nitter.cz/InTouchAIeu/status/1709115563417440365#m
[2023-10-03 07:57 UTC]
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Now accepting paid #SpeakingEngagements on #STEM #STEAM #KidLit #HipHopSTEAMSlamPoetry #BlackSTEMRomance #Engineering #Robotics #AI #EngineeringEducation #RoboticsEngineering NoireSTEMinist.com