This site contains information on the following projects General Information IPv6 Internet Protocol Version 6 Imaging Windows based Computers using DISM. Apr2012 Now that the Model B board is shipping, details added should relate to this board and the default Debian distribution unless stated otherwise. A. UNPACK packagefile 0x00000800 0x00000242 RK3188LoaderLV1. F8AE parameter 0x00031000 0x00000264 Imagemisc. Cc. 26xx sw examples Texas Instruments Wiki. This Getting Started section will show you how to create an Edge Router running Contiki in Linux on a Beagle. Bone Black BBB with CC2. USB Dongle 2. 4. GHz or a Smart. RF0. EBCC1. 3xx. EM sub 1. GHz as RF interface. CC1. 3xxCC2. 6xx mesh devices either Smart. RF0. 6EB CC1. 3xx. EMCC2. 65. 0EM or CC2. Sensor. Tags acting as routers RPL storing mode will connect to the Edge Router and use it to send their data. Before getting started with the demo applications, please make sure you have the development environment setup by following this guide. The examples have been configured to run for both CC2. The CC2. 65. 0 Sensor. Tag 2. 0 and The Srf. EB with a CC1. 3xxCC2. EM mounted on it. The Edge Router Gateway is running an application called 6lbr, which is an an enhanced version of Contikis 6. Lo. WPAN Border Router solution which doesnt require a Linux host for routing while smartly interconnecting IPv. Device Driver Manager Debian Wiki SteamDisconnect the device from the Debugger and put the battery in powering from USBJTAG is also possible. You can power onoff put device in shutdown mode the. A free and opensource graphics device driver is a software stack that controls computer graphics hardware and supports graphics rendering APIs and is released under. The NanoPi NEOabbreviated as NEO is another fun board developed by FriendlyARM for makers, hobbyists and fans. Hardware Spec. CPU Allwinner H3, Quadcore CortexA7. Device Driver Manager Debian WikipediaNDP mechanisms and RPL. LBR is deployment ready for industrial use cases you dont need to be a Contiki expert to get started with it. It runs out of the box on low cost and open hardware platforms such as the Beaglebone Black and CC2. DK. More information can be found on this wiki. In contikiexamplescc. This demo application main purpose is to showcase basic contiki operations running on CC2. Read sensors and print out the values on the serial port. On the sensortag all sensors are read, on the EBEM combo only the battmon sensors are read temp and battery voltage. This is an IPv. 6RPL enabled example. Once QEMU has been installed, it should be ready to run a guest OS from a disk image. This image is a file that represents the data on a hard disk. From the. Mesa, also called Mesa3D and The Mesa 3D Graphics Library, is an opensource device driver and software implementation of the OpenGL, Vulkan and other specifications. RAID setup General setup. This is what you need for any of the RAID levels A kernel with the appropriate md support either as modules or builtin. Preferably a. Thus, if you have a border router in your installation same RDC layer, same PAN ID and RF channel, you should be able to ping. This example also demonstrates cc. BLE operation. The process starts the BLE beacon daemon implemented in the RF driver. The daemon will send out a BLE beacon periodically. Use any BLE enabled application e. Light. Blue on OS X or the TI BLE Multitool smartphone app and after a few seconds the cc. Every LOOPINTERVAL clock ticks the LED defined as LEDSPERIODIC will toggle and the device will print out readings from supported sensors. Buttons CC2. 6XXDEMOSENSOR1 button will toggle CC2. XXDEMOLEDSBUTTON, CC2. XXDEMOSENSOR2 turns on LEDSREBOOT and causes a watchdog reboot. The remaining buttons will just print something. UART Receiving an entire line of text over UART ending in r will cause LEDSSERIALIN to toggle. This also demonstrates how a code module can influence low power operation In this example we keep the UART on and capable to RX even with the chip in deep sleep. See keepuarton and the UART driver. Reed Relay Will toggle the sensortag buzzer onoff. Test by holding a magnet very close to reed switch S3 on the sensortag. This complex demo combines a number of web based applications aiming to demonstrate the CC2. The applications running on the mesh devices CC2. Sensor. Tag or EBEM are. A network based UDP UART transmit any data over the 6lowpan network to any IP address. A client for 6lbr http cetic. A Co. AP server set and get resources using RFC compliant COAP protocol. An MQTT client connect to any MQTT broker, e. IBM cloud server or a local MQTT broker on your Beaglebone. A web HTTP server used to display sensor readings, and also to configure MQTT functionality IBM cloud server settings. A Bluetooth Smart beacon demo. The device periodically sends out BLE Advertisement packets. The payload and transmission rate can be configured via COAP. This example demonstrates a way of deploying a very low consuming, very sleepy node. The node has two modes of operation. Normal Contiki. MAC duty cycles the radio as usual. The node is reachable. Very Sleepy Radio cycling mostly off, except when we need to perform network maintenance tasks. In this mode, the node is unreachable for most of the time. The node will operate in RPL leaf mode. This means that it will be reachable downwards, but it will not advertise the DODAG and it will not participate in routing. After booting, the node will enter normal mode. Serial Key Kane And Lynch 2 Weapons. The node exposes an OBSERVEable Co. AP resource. It will notify subscribers with a new value for this resource every interval seconds. It will then stay in normal mode for duration seconds. During this time window, it will be reachable over the network in order to e. When this time window expires, the node will switch back to very sleepy mode. This will only happen if very sleepy mode has been enabled by setting mode1 as per the instructions below. When the node is duty cycling the radio, either because it is in normal mode or because network maintenance is taking place, it will keep its green LED on thus providing an indication that it is reachable. A normal mode stint can be manually triggered by pressing the left button. Needed Hardware. This is the hardware you need to get started Access Point The Access Point need to support IPv. Edge Router Beaglebone Black, http beagleboard. CC2. 53. 1 USB Dongle for 2. GHz RF Interface, http www. CC2. 53. 1EMK or Smart. RF0. 6EBCC1. 3xx. EM for sub 1. GHz RF Interface, http www. CC1. 31. 0DKMesh devices You have two alternatives Smart. RF0. 6EB plus CC2. EM, http www. ti. CC2. 65. 0DK Smart. RF0. 6EB plus CC1. EM, http www. ti. CC1. 31. 0DK CC2. Sensortag 2. 0, http www. Lets get started Setup. This chapter will give you detailed instructions on how the get the demo setup completed, all using pre compiled binaries. Once done you will have Beagle. Bone balck running Debian Linux, and a Edge Router application called 6. LBR. Your sensortags will be acting a 6. Lo. WPAN routers, reporting data to a cloud server. Edge Router. Installing Debian Linux on Beagle. Bone Black. Install the latest Beaglebone Black Debian software image. Instructions follow ALL steps Beaglebone Black Debian Image is found here. Note Use SD card image  Select the Debian image link under the section Beagle. Bone Runs on Beagle. Bone Black as well without flashing the e. MMC. use a micro SD 4. GB or larger. Getting Started link above has details on how to program SD card image on Beaglebone Black. Connecting to the Beagle. Bone. Connect Beaglebone to your accesspoint. Find your Beaglebones IPv. DHCP server on your access point and connect to it via ssh, using e. Log in with username debian password temppwd Verify that your BBBs date is correct by using e. NAT6. 4If date is not correct make sure your BBB is connected to Internet and update by sudo ntpdate pool. Installing SLIP Serial Line IP as RF interface. The device connected via USB to the BBB is running a simple Serial Line IP application, basically translating between RF and serial line. This software can run on several different hardware platforms. CC2. 53. 1 USB Dongle 2. GHzSmart. RF0. 6EBCC1. EM sub 1. GHzSmart. RF0. 6EBCC2. 6xx. EM 2. 4. GHzCC2. Sensor. Tag 2. 4. GHz2. 4. GHz. The USB dongle is normally supplied with a packet sniffer application installed. Prior to using for 6lowpan, you need to reflash it. This needs to be done, and installed before you start 6lpr, otherwise the described tests wont work. The USB dongle is running a MAC co processor application,acting as RF interface for the 6. LBR Edge Router application. On a linux or Mac OS X PC. GHz IEEE8. 02. 1. The SLIP applicaiton is available in source code in Contiki under examplesipv. Note That this is for mainline Contiki, not included in the Cetic6. LBR contiki branch. In order to build for Smart. RF0. 6EBCC1. 3xx. EM, please follow these instructions Comment out the QUEUEBUFCONFNUM and UIPCONFBUFFERSIZE from the slip radioproject conf. PROJECTCONFH. define PROJECTCONFH. QUEUEBUFCONFNUM. QUEUEBUFCONFNUM 4. UIPCONFBUFFERSIZE. UIPCONFBUFFERSIZE 1. RFCORECONFCHANNEL 2. UIPCONFROUTER. define UIPCONFROUTER 0. To build slip radio. TARGETsrf. 06 cc. BOARDsrf. 06cc. TARGETsrf. BOARDsrf. 06cc. Flash to your target via Smart.