1. An extractor system comprising:
a positive pressure gas stream source;
a negative pressure gas stream source;
a positive pressure conduit configured to convey the positive pressure gas stream towards a work area;
a negative pressure conduit configured to convey the negative pressure gas stream from the work area;
a hood coupled to receive the positive pressure gas stream and to direct the positive pressure gas stream into a region around the work area and to draw airborne components from the work area into the negative pressure gas stream;
wherein the positive pressure gas stream source and the negative pressure gas stream source comprise a single blower driven by a single electric motor, and wherein the electric motor has a nominal power rating of at most approximately 7.5 Hp.
2. The system of claim 1, wherein the electric motor has a nominal power rating of approximately 5 Hp.
3. The system of claim 1, wherein the electric motor has a nominal power rating of approximately 3 Hp.
4. The system of claim 1, wherein the blower and electric motor are disposed in a base unit.
5. The system of claim 4, wherein the base unit comprises a movable cart.
6. The system of claim 1, comprising a manifold for directing gas flow from the blower to the positive pressure conduit and gas flow from the negative pressure conduit towards the blower.
7. The system of claim 6, comprising a single bend between an outlet of the blower and the manifold.
8. The system of claim 1, wherein the system comprises a total head across the blower of at most approximately 18 in H2O.
9. The system of claim 8, wherein the system comprises a total head across the blower of approximately 14 in H2O.
10. The system of claim 8, wherein the system comprises a total head across the blower of approximately 10 in H2O.
11. The system of claim 1, wherein the blower provides a flow rate of approximately 900 CFM and the motor has a nominal power rating of 5 Hp.
12. An extractor system comprising:
a positive pressure gas stream source;
a negative pressure gas stream source;
a positive pressure conduit configured to convey the positive pressure gas stream towards a work area;
a negative pressure conduit configured to convey the negative pressure gas stream from the work area;
a hood coupled to receive the positive pressure gas stream and to direct the positive pressure gas stream into a region around the work area and to draw airborne components from the work area into the negative pressure gas stream;
wherein the positive pressure gas stream source and the negative pressure gas stream source comprise a single blower driven by a single electric motor, and wherein the system comprises a total head across the blower of at most approximately 18 in H2O.
13. The system of claim 12, wherein the system comprises a total head across the blower of approximately 14 in H2O.
14. The system of claim 12, wherein the system comprises a total head across the blower of approximately 10 in H2O.
15. The system of claim 2, wherein the blower provides a flow rate of approximately 900 CFM and the motor has a nominal power rating of 5 Hp.
16. An extractor system comprising:
a base unit comprising a positive pressure gas stream source and a negative pressure gas stream source;
a positive pressure conduit configured to convey the positive pressure gas stream towards a work area;
a negative pressure conduit configured to convey the negative pressure gas stream from the work area;
wherein a total static head required to displace the positive and negative pressure gas streams in the base unit and the conduits is at most approximately 18 in H2O.
17. The system of claim 16, wherein the total static head required to displace the positive and negative pressure gas streams in the base unit and the conduits is approximately 14 in H2O.
18. The system of claim 16, wherein the total static head required to displace the positive and negative pressure gas streams in the base unit and the conduits is approximately 10 in H2O.
19. The system of claim 16, wherein the positive pressure gas stream source and the negative pressure gas stream source comprise a single blower driven by a single electric motor, and wherein the electric motor has a nominal power rating of at most approximately 7.5 Hp.
20. The system of claim 16, wherein the base unit comprises a movable cart.
21. An extractor system comprising:
a positive pressure gas stream source;
a negative pressure gas stream source;
a positive pressure conduit configured to convey the positive pressure gas stream towards a work area;
a negative pressure conduit configured to convey the negative pressure gas stream from the work area; and
a hood coupled to receive the positive pressure gas stream and to direct the positive pressure gas stream into a region around the work area and to draw airborne components from the work area into the negative pressure gas stream;
wherein the positive pressure gas stream source produces a flow of at least approximately 900 CFM while being driven by a motor having a nominal power rating of at most 5 Hp, and wherein the hood draws the negative pressure gas stream at a velocity of approximately 100 ftmin at approximately 3 ft from the hood inlet.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. An apparatus for video surveillance system, the apparatus comprising:
at least one camera sensor, said at least one camera sensor is configured to capture 30 frames-per-second at a minimum of high definition resolution;
at least one image signal processor coupled to said at least one camera sensor for performing image signal processing functions including but not limited to auto white balance, auto gain, wide-angle lens barrel distortion reduction, and lens defect compensation;
a motion adaptive spatial and temporal filtering unit that is coupled to output of said at least one image signal processor for preprocessing of video data;
at least one video compression unit according to H.264 standard that is coupled to output of said motion adaptive spatial and temporal filtering unit, said at least one video compression unit is configured to compress 30 frames-per-second at a minimum of high definition resolution in variable bit rate;
a processor coupled to at least one video compression unit to store compressed data on a removable non-volatile semiconductor storage media in a continuous record loop in a circular queue, said circular queue is configured for storing multiple days of storage of surveillance data, in accordance with size of said removable non-volatile semiconductor storage media, before oldest data is overwritten by newly recorded video;
an encryption unit coupled to said processor, wherein said stored compressed data on said removable non-volatile semiconductor storage media is configured to be encrypted to allow only people with a security key to access said stored surveillance data;
an internet interface unit coupled to said processor using an interface including but not limited to 802.11 wireless interface, 3G data interface, 4G data interface, or a power-line data interface;
a transrating unit coupled to said removable non-volatile semiconductor storage media using said Internet interface unit for transmitting said stored surveillance data at a different constant bit rate (CBR) in accordance with transmit channel and destination capabilities;
wherein said surveillance data from said circular queue for a time of interest from a start time to an end time is sent by said processor upon request by a remote device communicating to said Internet interface unit using a H.264 compressed and encrypted audio-video data file format;
wherein, in case of a trigger event, data enveloping said trigger event is saved and transrated into a lower constant bit rate before encryption and transmittal to one or more predefined internet destinations;
wherein, upon request to transmit a time range of said start time to a stop time, requested data is transmitted in a data file format in non-real-time using TCPIP protocol, said data file is generated by decompressing video, performing temporal and spatial scaling, and compressing video at a different data rate in accordance with request and capabilities of a receiving device;
wherein all elements of the apparatus are integrated into a single compact unit:
whereby the apparatus is configured to save evidentiary data locally in said removable non-volatile storage media;
whereby an intruder is prevented from removing said evidentiary data that is captured and stored on multiple distributed units of the apparatus which are hard to reach or remove; and
image processing and storage of surveillance data collocated at the apparatus without having to stream data continuously over cabling or wireless in real-time, thereby power consumption and local bandwidth of transmitted data are significantly reduced because continuous streaming of data is not required; only said data enveloping said trigger event or a requested time zone is transmitted upon request by said remote device.
2. The apparatus according to claim 1, further comprising:
a microphone, an audio preamplifier, an audio-to-digital conversion circuit, and an audio compression unit; and
a multiplexer to combine output of said audio compression unit and said at least one video compression unit.
3. The apparatus according to claim 1, wherein said removable non-volatile semiconductor storage media uses flash memory including but not limited to a USB memory key, a SDHC memory card, a micro SD card.
4. The apparatus according to claim 1, further including a rechargeable battery to power the apparatus, and a solar cell to recharge said rechargeable battery.
5. The apparatus according to claim 1, wherein said internet interface unit uses HomePlug AV standard using power lines to connect to a local or remote device for transmission of data when requested.
6. An apparatus for security and evidentiary recording, the apparatus comprising:
a camera image sensor with at least high definition resolution for capturing video at 30 frames per second;
an audio microphone;
a removable flash memory including but not limited to USB memory key, SD memory card, or micro SD memory card;
a rechargeable battery;
a system-on-a-chip processor coupled to said removable flash memory and said camera image sensor, said system-on-a-chip processor comprising:
a camera ISP;
a hardware unit for lens barrel distortion reduction and lens defect compensation;
a first hardware accelerator module for motion adaptive spatial and temporal filtering;
a second hardware video accelerator unit for H.264 video compression at 30 frames-per-second with variable bit rate (VBR);
a hardware accelerator for transrating a VBR stream to a different bit rate CBR stream in accordance with available network channel bandwidth and target device display capability;
a security processor for encryption or decryption of locally stored and transmitted data;
a processor unit for audio compression;
an audio and video multiplexing circuit;
wherein compressed, encrypted and multiplexed audio-video surveillance data are stored on said removable flash memory using a circular queue, said circular queue is configured for storing at least several days of recording;
wherein a time range from a start time to a stop time of surveillance data is transmitted to a remote device upon request by said remote device or upon occurrence of a trigger event;
an Internet interface coupled to said system-on-a-chip processor including but not limited to 802.11 wireless interface, 3G wireless data interface, 4G wireless interface, and a power-line networking interface, said internet-interface is active only for sending data for said start time to said stop time upon request by said remote device and for signaling a trigger event to said remote device;
wherein, upon request to transmit said time range of said start time to said stop time, requested data is transmitted in a data file format in non-real-time using TCPIP protocol, said data file is generated by decompressing video, performing temporal and spatial scaling, and compressing video at a different data rate in accordance with request and capabilities of a receiving device;
wherein said trigger event including but not limited to motion detection, causes copying data enveloping said trigger event to a separate file in said removable flash memory, and sending said copied data as an attachment to a predefined email address;
wherein all elements of said apparatus are tightly packed in a single small enclosure; and
whereby one or more units of the apparatus concurrently capture video surveillance data continuously and store said video surveillance data locally for at least several days of past history and ensure that all evidentiary data are captured and analyzed when occurrence of an event is detected at a later time.
7. The apparatus according to claim 6, wherein said power-line networking interface uses HomePlug AV standard.
8. The apparatus according to claim 6, wherein the apparatus is packaged in a compact enclosure which is less than 2 inches by 2\xbd inches in size and directly plugged into a power outlet.
9. The apparatus according to claim 6, wherein said removable flash memory is configured to be unplugged and plugged into a PC or a TV for viewing said video surveillance data.
10. The apparatus according to claim 6, wherein contents of said removable flash memory are encrypted so that only people with security key is provided access to view said video surveillance data.
11. The apparatus according to claim 6, wherein data is captured and stored with variable bit rate in said circular queue, and is converted to a constant bit rate stream to transmit over a low-bandwidth network channel upon request.
12. The apparatus according to claim 6, wherein said remote device is one of a personal computer, a cell phone, or a monitoring station,
13. The apparatus according to claim 6, wherein the apparatus also performs facial detection and triggers a certain action for a certain list of individuals.
14. The apparatus according to claim 6, wherein an electronic bill of material cost is less than $75.