DASH7
DASH7 Alliance Protocol is an open-source wireless sensor and actuator network protocol, which operates in the 433 MHz, 868 MHz and 915 MHz unlicensed ISM/SRD band. DASH7 provides multi-year battery life, range of up to 2 km, low latency for connecting with moving things, a very small open-source protocol stack, AES 128-bit shared-key encryption support, and data transfer of up to 167 kbit/s. The DASH7 Alliance Protocol is the name of the technology promoted by the non-profit consortium called the DASH7 Alliance.
International standard
DASH7 Alliance Protocol originates from the ISO/IEC 18000-7 standard describing a 433 MHz ISM band air interface for active RFID. This standard was mainly used for military logistics.The DASH7 Alliance re-purposed the original 18000-7 technology in 2011 and made it evolve toward a wireless sensor network technology for commercial applications. The DASH7 Alliance Protocol covers all sub-GHz ISM bands, making it available globally. The name of the new protocol was derived from the section seven denoted as -7 of the original standard document.
The current version of the DASH7 Alliance protocol is no longer compliant with the ISO/IEC 18000-7 standard.
History
In January 2009, the U.S. Department of Defense announced the largest RFID award in history, a $429 million contract for DASH7 devices, to four prime contractors, namely Savi Technology, Northrop Grumman Information Technology, Unisys and Systems & Processes Engineering Corporation.In March 2009, the DASH7 Alliance, a non-profit industry consortium to promote interoperability among DASH7-compliant devices, was announced, and as of July 2010 has more than 50 participants in 23 countries. It was meant to be similar to what the Wi-Fi Alliance does for IEEE 802.11, for wireless sensor networking.
In April 2011, the DASH7 Alliance adoption of DASH7 Mode 2, based on the ISO 18000-7 standard that makes better use of modern silicon to achieve faster throughput, multi-hop, lower latency, better security, sensor support, and a built-in query protocol.
In March 2012, the DASH7 Alliance that it was making the DASH7 Mode 2 specification available to non-members.
In July 2013, the DASH7 Alliance announced the DASH7 Alliance Protocol Draft 0.2.
In May 2015, the DASH7 Alliance v1.0 of the DASH7 Alliance Protocol.
In January 2017, the DASH7 Alliance publicly released the v1.1 of the DASH7 Alliance Protocol. The version constitutes a major update of v1.0, in particular in the area of security and interoperability.
Technical summary
Compared with other wireless data technologies:| Global standard used | Frequency bands | Channel width | Range | Frequencies available globally | Maximum end node transmit power | Packet size | Data rate | Topology | End node roaming allowed | Governing body |
| DASH7 Alliance Protocol 1.x | 433/868/915 MHz ISM/SRD | 25 kHz or 200 kHz | 0–5 km | 433 MHz: +10dBm 868/915 MHz: +27dBm | max. 256 bytes/packet | 9.6 kbit/s, 55.55 kbit/s or 166.667 kbit/s | Node-to-node, Star, Tree | Yes | DASH7 Alliance | |
| IEEE P802.11ah | Unlicensed Sub-1 GHz bands | 1/2/4/8/16 MHz | Up to 1 km | Dependent on Regional Regulations | Up to 7,991 Bytes, up to 65,535 Bytes | 150kbit/s | Star, Tree | Allowed by other 802.11 amendments | IEEE 802.11 working group | |
| Ingenu RPMA | 2.4 GHz ISM | 1 MHz | 0–30 km | to 20 dBm | 6B–10kB | AP aggregates to 624 kbit/s per Sector /AP aggregates to 156 kbit/s per Sector | Typically Star. Tree supported with an RPMA extender | Yes | Ingenu | |
| LTE-Cat M | Cellular | 1.4 MHz | 2.5–5 km | 100 mW | ≈100 — ≈1000 bytes typical | ≈200 kbit/s | Star | Yes | 3GPP | |
| LoRaWAN | 433/868/780/915 MHz ISM | EU: 8x125 kHz, US 64x125 kHz/8x125 kHz, Modulation: Chirp Spread Spectrum | 2–5 km, 15 km, 702 km LoS tested, 1500 km Link Budget | EU:<+14 dBm, US:<+27 dBm | User defined | EU: 300 bit/s to 50 kbit/s, US:900bit/s to 100 kbit/s | Star on Star | Yes | LoRa Alliance | |
| nWave | Sub-1 GHz ISM | Ultra narrow band | 10 km, 20– 30 km | 25–100 mW | 12 byte header, 2- 20 byte payload | 100 bit/s/- | Star | Yes | Weightless SIG | |
| SigFox | 868/902 MHz ISM | Ultra narrow band | 30–50 km, 3– 10 km | 10μW to 100 mW | 12 bytes | 100 bit/s to 140 messages/day/max. 4 messages of 8 bytes/day | Star | Yes | SigFox | |
| Weightless-W | 400-800 MHz | 5 MHz | 5 km | 17 dBm | 10 byte min. | 1 kbit/s to 10 Mbit/s | Star | Yes | Weightless SIG | |
| Weightless-N | Sub-1 GHz ISM | Ultra narrow band | 3 km | 17 dBm | Up to 20 bytes | 100 bit/s/- | Star | Yes | Weightless SIG | |
| Weightless-P | Sub-1 GHz ISM | 12.5 kHz | 2 km | 17 dBm | 10 byte min. | 200 bit/s to 100 kbit/s | Star | Yes | Weightless SIG |
BLAST networking technology
Networks based on DASH7 differ from typical wire-line and wireless networks utilizing a "session". DASH7 networks serve applications in which low power usage is essential and data transmission is typically much slower and/or sporadic, like basic telemetry. Thus, instead of replicating a wire-line "session", DASH7 was designed with the concept of B.L.A.S.T.:Bursty: Data transfer is abrupt and does not include content such as video, audio, or other isochronous forms of data.Light: For most applications, packet sizes are limited to 256 bytes. Transmission of multiple consecutive packets may occur, but is generally avoided, if possible.Asynchronous: DASH7's main method of communication is by command–response, which by design requires no periodic network "hand-shaking" or synchronization between devices.Stealth: DASH7 devices do not need periodic beaconing to be able to respond in communication.Transitive: A DASH7 system of devices is inherently mobile or transitional. Unlike other wireless technologies, DASH7 is upload-centric, not download-centric, thus devices do not need to be managed extensively by fixed infrastructure, i.e., base stations.Sub 1-GHz
D7A utilizes the 433, 868 and 916 MHz frequencies, which are globally available and license-free.Sub 1-GHz is ideal for wireless sensor networking applications, since it penetrates concrete and water, but also has the ability to propagate over very long ranges without requiring a large power draw on a battery. The low input current of typical tag configurations allows operating on coin cell or thin-film batteries.
Tag-to-tag communications
Unlike most active RFID or LPWAN technologies, DASH7 supports tag-to-tag communications.Localization
Localization techniques can be applied to DASH7 endpoints. An accuracy of 1 m using DASH7 beacons at 433 MHz has been achieved in a lab experiment.Integrated query protocol
DASH7 supports a built-in query protocol that minimizes "round trips" for most messaging applications that results in lower latency and higher network throughput.Range
DASH7 provides a link budget of up to 140 dB with 27 dBm transmission power, which positions the technology as medium-range, compared to short-range and long-range. Note that higher ranges are always obtained at the expense of per-bit power consumption and transmission duration. Low-power long-range technologies are generally not truly bi-directional, as the regular scanning duty is pretty high. In this context, DASH7 is a very good compromise between range, power consumption, and bi-directionality and is very suitable for industrial applications with effective range of 100 to 500 m.In line-of-sight situations, DASH7 devices today advertise read ranges of 1 kilometer or more, however, ranges of up to 10 km have been tested by Savi Technology and are easily achievable in the European Union, where governmental regulations are less constrained than in the USA.