Posts Tagged ‘DSPG’
June 22, 2016
I’ve written a series of blogs about consumer devices with speech recognition, like Amazon Echo. I mentioned that everyone is getting into the “always listening” game (Alexa, OK Google, Hey Siri, Hi Galaxy, Assistant, Hey Cortana, OK Hound, etc.), and I’ve explained that privacy concerns attempt to be addressed by putting the “always listening” mode on the device, rather than in the cloud.
Read more at Embedded Computing…
August 6, 2015
We first came out with TrulyHandsfree about five years ago. I remember talking to speech tech executives at MobileVoice as well as other industry tradeshows, and when talking about always-on hands-free voice control, everybody said it couldn’t be done. Many had attempted it, but their offerings suffered from too many false fires, or not working in noise, or consuming too much power to be always listening. Seems that everyone thought a button was necessary to be usable!
In fact, I remember the irony of being on an automotive panel, and giving a presentation about how we’ve eliminated the need for a trigger button, while the guy from Microsoft presented on the same panel the importance of where to put the trigger button in the car.
Now, five years later, voice activation is the norm… we see it all over the place with OK Google, Hey Siri, Hey Cortana, Alexa, Hey Jibo, and of course if you’ve been watching Sensory’s demos over the years, Hello BlueGenie!
Sensory pioneered the button free, touch free, always-on voice trigger approach with TrulyHandsfree 1.0 using a unique, patented keyword spotting technology we developed in-house– and from its inception, it was highly robust to noise and it was ultra-low power. Over the years we have ported it to dozens of platforms, Including DSP/MCU IP cores from ARM, Cadence, CEVA, NXP CoolFlux, Synopsys and Verisilicon, as well as for integrated circuits from Audience, Avnera, Cirrus Logic, Conexant, DSPG, Fortemedia, Intel, Invensense, NXP, Qualcomm, QuickLogic, Realtek, STMicroelectronics, TI and Yamaha.
This vast platform compatibility has allowed us to work with numerous OEMs to ship TrulyHandsfree in over a billion products!
Sensory didn’t just innovate a novel keyword spotting approach, we’ve continually improved it by adding features like speaker verification and user defined triggers. Working with partners, we lowered the draw on the battery to less than 1mA, and Sensory introduced hardware and software IP to enable ultra-low-power voice wakeup of TrulyHandsfree. All the while, our accuracy has remained the best in the industry for voice wakeup.
We believe the bigger, more capable companies trying to make voice triggers have been forced to use deep learning speech techniques to try and catch up with Sensory in the accuracy department. They have yet to catch up, but they have grown their products to a very usable accuracy level, through deep learning, but lost much of the advantages of small footprint and low power in the process.
Sensory has been architecting solutions for neural nets in consumer electronics since we opened the doors more than 20 years ago. With TrulyHandsfree 4.0 we are applying deep learning to improve accuracy even further, pushing the technology even more ahead of all other approaches, yet enabling an architecture that has the ability to remain small and ultra-low power. We are enabling new feature extraction approaches, as well as improved training in reverb and echo. The end result is a 60-80% boost in what was already considered industry-leading accuracy.
I can’t wait for TrulyHandsfree 5.0…we have been working on it in parallel with 4.0, and although it’s still a long ways off, I am confident we will make the same massive improvements in speaker verification with 5.0 that we are doing for speech recognition in 4.0! Once again further advancing the state of the art in embedded speech technologies!
January 15, 2014
I spent last week at CES in Las Vegas. What a show!
The big keynote speech was the night before the show started and was given by Brian Krzanich, Intel’s new CEO. His talk was focused on Wearables, and he demonstrated 3 wearable devices (charger, in-ear, and platform architecture). The platform demo included a live on stage use of speech recognition with the low power wake up provided by Sensory. The demo was a smashing success! Several bloggers called it a “canned” demo assuming it couldn’t be live speech recognition if it worked so flawlessly!
I had a chance to walk through the Wearables area. Holy smoke there must have been 20 or 30 smart watches, a similar number of health bands, and even a handful of glasses vendors. In fact, seeing attendees wearing Google’s Glass was quite common place. The smart watches mostly communicate with Bluetooth, and some of the smaller, lighter devices, use Zigbee, ultra-low power Bluetooth, or Ant+ for wireless communications.
Sensory was all over CES, here’s some of the things Sensory sales people were able to catch us in:
Overall a great show for Sensory. Jeff Rogers, Sensory’s VP Sales told me, “A few people said they had searched out speech recognition products on the show floor to find the various speech vendors, and found that they all were using Sensory.”
August 21, 2013
Saw an article about game changers in the Galaxy Note 3.
It has a few interesting insights. They refer to Samsung’s S-Voice now as “Always on S Voice” and mention that the new Note 3 will be designed to be always on, listening for your wake up command.
The Galaxy Note 3 also uses the Qualcomm SnapDragon 800. This is the chip from Qualcomm that has an always listening wake up command built in. Sorry, Qualcomm, but I don’t think Samsung will be using your technology!
The best performing “always listening” processors combine Sensory’s TrulyHandsfree with an ultra-low power chip, like IP from Tensilica and CEVA. Chip companies like Cirrus Logic, DSPG, Realtek, and Wolfson seem well positioned to lead in mobile chips with “always on” listening features.
August 7, 2013
Running on the OS level does drain power. Even using the baseband or apps processors can be inefficient. This is why Sensory has ported to processors such as Cirrus Logic, Conexant, DSPG, Realtek, Texas Instruments, Wolfson, and all of the leading IP platforms (ARM, CEVA, Tensilica, Verisilicon, etc.), and many more. Our chip and IP partners are reporting power consumption as low as 1.7mA. That includes the microphone and preamp circuit, and it can go even lower by using a sound detection front end to turn off processing in quiet conditions. Tensilica has even introduced the HiFi Mini IP core targeting Sensory’s TrulyHandsfree approach for companies that want to use always on technology without extra bells and whistles.