NEW PRODUCT – ESP32 WiFi-BT-BLE MCU Module / ESP-WROOM-32

In album 11/3/16

Reshared post from +Adafruit Industries

NEW PRODUCT – ESP32 WiFi-BT-BLE MCU Module / ESP-WROOM-32
https://www.adafruit.com/product/3320

The ESP8266 started a small revolution by bringing WiFi to a small and cheap package that also had enough processing power and enough pins to get small things done. Now get ready to take your bite-sized WiFi capabilities to the next level with the ESP-WROOM-32 WiFi / Bluetooth Classic / BLE Module!

According to Espressif, the ESP-WROOM-32 is a powerful, generic WiFi-BT-BLE MCU module that targets a wide variety of applications ranging from low-power sensor networks to the most demanding tasks such as voice encoding, music streaming and MP3 decoding.

For advanced users only! This product is just the module – which can be difficult to use. You'll need to solder it onto a board with supporting circuitry (See the Espressif's assembled ESP32 development board for a more complete design). This module is for developers at this time, these modules are not certified!

Please note this product is for people who are comfortable compiling via the Tensilica toolchain. There are the beginnings of an Arduino IDE setup, Lua and MicroPython port. We are providing these for the community of advanced hackers, coders and makers who are willing to help make demos, projects and tutorials for the ESP32! Please consider holding off on purchase if you are not planning to contribute to the community coding efforts at this time, thank you! There are no refunds, exchanges, store credit or support in any way for this product.

In stock and shipping now!
https://www.adafruit.com/product/3320
#newproduct
#wireless #wifi #bluetooth #bluetoothLE #bluetoothlowenergy #esp32

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Engineering News Article

Its amazing how a simple idea like the cantenna has grabbed the attention of the media. So far I’ve been interviewed on SABC Africa and by Engineering News (Tin-can bridge to digital society). One would have thought that the technical, innovative stuff we’re doing with ad-hoc networking in the larger project would have more interest. I suppose that its easier to grasp the imagination with simplicity.

IWS2005 Thursday


IWS2005 Thursday
Keynote speech
WLAN, Fixed Wireless and Cellular all have adopted space-time transmit diversity
Only WLAN’s really use special MUX
Celullar may never see special MUX

Cognitive radio may present a challenge to spatial MUX in WiMAX
MIMO in networks is different from MIMO in isolation

Networks not prepared to cut down on power(loose channels) to include spatial diversity

UWB panel discussion
CSEM – built small, low complexity UWB solution
Low data rate
Tx 3.5 mW
Rx 7.5 mW
Radiated power 100uW
Uses analogue spread spectrum and multi-path diversity
Use of other MAC layer may reduce power further, WiseMAC, S-MAC

CAPANINA Project
Delivering Broadband from a high altitude, quasi stationary plane/airship
120Mb/s symmetric links
Delivery to rural areas, blocks of flats and moving train, using steerable antennae
Optical links for backhaul 48/47GHz 31/28GHz
University of York UK, NICT Japan
60Km diameter user area coverage, single or multiple cell
Possible backhaul via satellite
802.16, 802.20, 802.11 , ETSI Hiperaccess, hiperMAN, DVB
802.16sc is best overall choice
WiMAX, possible depending on regulators
17 – 22 Km above the ground
Dish sizes less than 30 cm
Issues: HAP station keeping and moving train
Antennae: mechatronic and smart
Use 8X8antenna array to block out interfering signals

Test system in Sweden delivered 4Mb/s throughput 802.11b and 1.25Gb/s freespace optic link
Dr. David Grace dg@ohm.york.ac.uk
www.capanina.org
200-300 000 euros for test tethered platform

This has given me an idea!!! Why not put an AP on an advertisement gas balloon as a hop between Jhb and PTA?

Improved Triangulation Method using a Movement model
Localisation done in Bluetooth
Inquiry procedure provides RSSI
Movement model variables: Speed, direction based on previous measurements
Without prior knowledge: Speed truncated normal distribution with a mean of 1m/s and std dev of 0.5m/s
Direction uniform between -180 and 180
With prior knowledge, previous measurements used to determine speed

Planning of Large-scale WLAN infrastructures, Methodius University, Macedonia
Planning either done using educated guesses or with auto planning
Dominant path approach used for propagation modelling
Propogation Modelling, Coverage optimisation and channel alloc optimisation
Wireless Indoor Design Tool, version 1 (WIDT v1) to be released soon
Possible use in indoor mesh?

IWS2005 Wednesday

IWS2005 Thursday
Broadband Rollout and the role of wireless, Steffen Ring, Director Motorola
IEEE802 has 3 categories, Wire line 802.1, 802.3, 802.21 , Wireless 802.11.802.15, 802.16, 802.20 and tech advisory 802.18, 802.19

Enhanced Data rate, 802.11n WLan approx 200+ Mb/s in testing may be able to handle 1000’s of calls and possibly uncompressed video

New mobile extensions to WiMax, 802.16e
Mesh networks 802.11s

802.11a 5GHz 54Mb/s PHY based on OFDM
802.11v 2.4GHz 11Mb/s PHY based on DSSS
802.11d
802.11f Support for roaming
802.11h European 802.11a
802.11i Security
802.11n High Throughput

802.16 Single Carrier MAC/PHY layer 11-66GHz
802.16e Mobile Broadband Wireless Access
WiMax based on 802.16 and 802.16e

http://www.wirelessman.org/tge/index.html

DVB-H as Broadband Access Technology, Reza Tadayoni, CICT, Tech Univ Denmark,
Mobile and Broadcast Convergence
Inband – UMTS and GPRS e.g mibiTV
Hybrid – DVB-H, DMB (Korea), ISDB-T (Japan), MediaFLO (Qualcomm, US)
DVB-H up to 11Mb/s

BREAD project, Broadband access for all in Europe
Mention made of African Cantenna project

Rate Switching in 802.11e, dude from Toshiba
Currently, it is impossible to change the transmission rate during a burst because of Block ACK
4 algorithms proposed to solve the problem
1) link adaptation algorithm for Block ACK
Change and compare ratio of change of rate within a burst
2) Reduce the burst size
3)
4) A tail data packet with a higher rate is attached in every burst

Problem: 802.11 suffers from downlink throughput degradation when uplink traffic increases, cause: AP must transmit all downlink traffic and acquires the channel with the same probability as a single station, therefore to solve the prob, a new scheme is needed.
Solution: In the proposed scheme the AP has a single CSMA/CA function, this lowers prob of collision.
Proposed Scheme compared to DCF and Multiple CSMA/CA
After 26 station Multiple CSMA throughput drops
DCF and proposed scheme seem better, DCF drops off at 50

Current Frame burst handling of frame errors not efficient
Dymanic Queue prioritizing proposed.
Results show that after 30 stations, throughput decreases more in normal round robin than the proposed queue prioritization

IWS2005 Wednesday Afternoon

Power Efficient
Wireless is unrelieable, high BER
Leads to high power consumption
Use Co-operative Diversity (spatial diversity)
Does this lower transmission power of individual nodes?
REalisation:
hardware – Mulitple antenna on every node, minimum distance between antennas should be l/2 = 6.12 cm
software – Space -time codes, two dimensional array
Nodes with single antennas cop-operate to create a virual MIMO, which gives the same effect [Laneman et al]

IWS 2005 Tuesday

Home Networking: Sudhir Dixit, Research Fellow, Nokia Research Center
Home Networking; the next frontier (not the final frontier, coz thats been reserved for space)

DLNA consortium
DLNA Vision, promote interoperaability between home networked devices.

Media Exchange protocols for home networks, Edwin Heredia, Microsoft

Location based services, Paul Wisner, Nokia
Based on Nokia 6630, uses Discovery Protocols: Bluetooth SDP and UPnP
Others: SLP and JINI
Nokia Approach: Everything is aware of its own location, proximity is determined by comparisn
Map location to position, position determined from GPS, WLAN triangulation etc.
Desktop on mobile device shows reachable services

Usable Security in Smart Homes, Saad Shakshir, Nokia Research

Hot Topics: MIMO
What is MIMO?
Definition: MIMO

IWS2005 Tues Afternoon

Duplicate Address Detection in OLSR networks, Thomas Clausen, Inria

MANETS: Mobile Adhoc Networks, do not comply with traditional internet hypothesis
Networks split and re-combine and may cause address conflicts.
DHCP is statefull , server based and sensitive to partitioning
IPV6 also has similar problems
Pro-active protocol
Inspired by NOA OLSR and PACMAN
The proposed solution is to use link state messages to determine the occurance of duplicate addresses and initiate self address change in case of detection

AD-hoc network applcations and technical issues, Dude from Hitachi
3 uses for ad-hoc:
specialized, e.g miltary, emergency, disaster
enterprise e.g. office, home
consumer e.g. community
Town security System with wireless cameras, Tracking, Cellular phones using ad-hoc networking to bypass network
ITS service systems
3 test systems
Security system with 8 olsr nodes, cameras and pda
Car mobile network with auto handover between wilan and cellular, using olsr and mobile IPv6