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Status
IEEE802.15.4e is an active working group. It has =
produced its latests public draft standard in September 2011,=
which you can buy here. This draft standard (or a very minor revision thereof) will be=
adopted in the next version of the IEEE802.15.4 standard, probably by the =
end of 2011.
On top of the draft standard above, the following documents are of inter=
est:
Overview
IEEE802.15.4e is a working group by the IEEE =
chartered to define a MAC amendment to the existing standard 802.15.4-2006 =
to better support industrial markets. The key element of the solution propo=
sed by 802.15.4e is channel hopping, which significantly increases robustne=
ss against external interference and persistent multi-path fading.
Time is divided into slots; an Absolute Slot Number (ASN) is incremented=
at each slot and shared by all nodes. At each new slot, the frequency to b=
e used is calculated using the equation below. channelOffset is a number be=
tween 0 and 15 which is assigned to each slot during reservation. 100 slots=
form a slotframe; this slotframe repeats over time.
frequency =3D (ASN + channelOffset)%16
During reservation, one of the slots in the slotframe of node A may be r=
eserved for sending data to B at a given channelOffset. Every 100 slots, A =
can thus send to B at a frequency calculated with the equation above. The k=
ey is that ASN is incremented at each slot, so subsequent packets =
are sent at different frequencies.
Channel Hopping
WSNs face the challenge of ensuring reliable communication over inherent=
ly unreliably links. External interference and multi-path fading cause the =
quality of wireless links to change dramatically in an unpredictable way. T=
hese phenomena change depending on the frequency the nodes are communicatin=
g on. Channel hopping is a technique proven to efficiently combat the unrel=
iable nature of wireless.
Connectivity traces were collected by J. Ortiz and D. Culler in a UC Ber=
keley office space (traces are made available at =
http://wsn.eecs.berkeley.edu/connectivity/). 46 IEEE802.15.4-compliant =
TelosB motes are deployed in a 50m by 50m indoor environment, and are const=
antly listening for packets. One after the other, each mote transmits a bur=
st of 100 packets, with a 20ms inter-packet time and a transmission power o=
f 0dBm, on each of the 16 frequency channels which span the 2.4-2.485GHz ba=
nd. Timers are used to ensure that all nodes switch channels simultaneously=
. Note that, because bursts are sent in sequence, there are no collisions. =
All non-transmitting nodes record the timestamp of the packets received, th=
eir source address, and the frequency channel the packets are received on. =
After all 46 nodes have sent a burst, each node reports what packets it has=
received. This process is repeated in 17 runs. A single run completes in 1=
3 minutes; several hours separate subsequent runs.
With these traces in hand, one can plot the reliability of a link depend=
ing on its frequency. Reliability can be simply expressed as the Packet Del=
ivery Ratio (PDR): the ratio between the number of received packets and the=
number of sent packets. A PDR of 1 indicates a perfect link. The figure be=
low plots the average reliability of all links, depending on their frequenc=
y. While at some frequencies (e.g. channel 26, or 2.480GHz) PDR is around 8=
7%, it drops to close to 75% at others (e.g. channel 12, 2.415GHz). This is=
due to IEEE802.11 (!WiFi) activity on IEEE802.11 channels 1, 6 and 11.
For more information of how channel hopping combats external interferenc=
e, please read:
- Thomas Watteyne, Ankur Mehta, Kris Pister. "Reliability Throug=
h Frequency Diversity: Why Channel Hopping Makes Sense". Sixth ACM Int=
ernational Symposium on Performance Evaluation of Wireless Ad Hoc, Sensor, =
and Ubiquitous Networks (PE-WASUN), Tenerife, Canary Islands, Spain, 26-30 =
October 2009.
- Branko Kerkez, Thomas Watteyne, Mario Magliocco, Steven Glaser, Kris Pi=
ster. "Feasibility Analysis of Controller Design for Adaptive Chan=
nel Hopping". First International Workshop on Performance Methodologie=
s and Tools for Wireless Sensor Networks (WSNPerf), Pisa, Italy, 23 October=
2009.
In an indoor environment, every wall, person, and piece of furniture act=
s as a reflector for RF signals. As a result, on top of the signal followin=
g the direct line-of-sight (LOS) path, a node receives multiple echoes whic=
h have bounced off nearby elements. Because the paths those echoes follow a=
re necessarily longer than the LOS path, they arrive a bit later, typically=
within a few $ns$ later. This is an unwanted phenomenon, particularly in n=
arrowband communication. If the different signals are phased appropriately,=
they can destructively interfere, and the receiver is unable to decode the=
signal even when physically close to the transmitter.
Let's consider some experimental results. A computer is connected to a f=
ixed receiver mote; a transmitter mote is mounted on a motorized arm. At th=
e beginning of a measurement, the arm is moved to a given location. The tra=
nsmitter then transmits 1000 29-byte-long packets at a given requested freq=
uency. The PDR is determined by the receiver as the fraction of packets tha=
t were successfully received. Each of the 1000 packets take 2.3ms to be sen=
d; one measurement (including the movement of the arm) takes 4s. This measu=
rement is repeated for different transmitter locations inside a 20cm by 34c=
m plane; with a 1cm step in both directions, i.e. 735 data points are acqui=
red.
The figure below depicts the resulting 3D plot of PDR versus transmitter=
location, when transmitter and receiver are separated by (only) 1m. While =
on most locations connectivity is good with PDR hovering around 100%, in lo=
cations just centimeters away, PDR drops to 0%.
Because multi-path fading depends entirely on the environment, it cannot=
be predicted without infinite knowledge of the object's location, orientat=
ion and reflective characteristics. When adding the fact that people walk a=
round, and doors are opened and closed, predicting the location of the deep=
fades (the location where PDR reaches 0%) is infeasible.
Yet, this phenomenon depends on frequency. Repeating the same measuremen=
t for different frequency channels does indeed show that the "topography" o=
f the figure above changes significantly from one channel to another. In fa=
ct, for transmitter and receiver separated by a couple of meters or more, t=
he impact of the operating frequency is such that a frequency shift of only=
5MHz (one channel in the IEEE802.15.4 standard) leads to an entirely diffe=
rent topography.
For more information of how channel hopping combats external interferenc=
e, please read:
- Thomas Watteyne, Steven Lanzisera, Ankur Mehta, Kris Pister. "=
Mitigating Multipath Fading Through Channel Hopping in Wireless Sensor Netw=
orks". IEEE International Conference on Communications (ICC), Cape Tow=
n, South Africa, 23-27 May, 2010.
In a communicating system, channel hopping should be used. In a channel =
hopping system, subsequent packets are sent at a different frequency, follo=
wing a pseudo-random hopping pattern. This means that, if a transmission fa=
ils, retransmission will happen on a different frequency. And because a dif=
ferent frequency means different effects of multi-path fading and interfere=
nce, this means that the transmission has a greater chance of being success=
ful that if the retransmission happened on the same channel.
Reference
One is strongly encouraged to read the draft standard. What follows can be=
used as a desktop reference when implementing the protocol. Following the =
structure of IEEE standards, we start by defining the MAC primitives, frame=
formats and state before describing what all of this is actually used for.=
MAC primitives
MAC primitives constitute the interface between the MAC layer and the ne=
xt upper layer. Following IEEE tradition, primitives are grouped into MLME =
and MCPS classes (to be detailed). For each primitive name, there are possi=
bly three calls: request, indication and&n=
bsp;confirm. When node A communicates to node B, A's next upper la=
yer starts by _request_ing the MAC layer to send a given packet over the ai=
r; when this is done, A's MAC layer _confirm_s successful transmission. B's=
MAC layer _indicate_s the reception of the frame.
MLME stands for MAC sublayer management entity. These prim=
itives are used to configure the protocol.
- MLME-SET-SLOTFRAMEis used to add, delete, or change a =
slotframe
- request (slotframeId,operation,size,channelPage,channelMa=
p,activeFlag)
- confirm (slotframeId,operation,status)
- MLME-SET-LINKis used to add, delete, or change a link
- request (operationType,linkHandle,slotframeId,timeslot,ch=
anOffset,linkOptions,linkType,nodeAddr)
- request (operationType,linkHandle)
- confirm (status,linkHandle)
- MLME-TSCH-MODEputs the MAC into TSCH mode, or out of T=
SCH mode (other modes are hence possible)
- request (modeSwitch)
- confirm (modeSwitch,status)
- MLME-LISTENinitiates the search for a TSCH network
- request (time,numPageChannel,pageChannels[])
- confirm (status)
- MLME-ADVERTISEis used to start sending Advertisement c=
ommand frames so that new nodes can find the network and this device
- request (advertiseInterval,channelPage,channelMap,hopping=
SequenceId, timeslotTemplateId,securityLevel,joinPriority,numSlotframe,slot=
frames[])
- indication (PANId,timingInformation,channelPage,channelMa=
p,hoppingSequenceId,timeslotTemplateId, securityLevel,joinPriority,linkQual=
ity,numSlotframes,slotframes[])
- confirm (status)
- MLME-KEEP-ALIVEcauses an empty (no MAC payload) frame =
to be sent in order to keep synchronization
- request (dstAddr,linkHandle,period)
- confirm (status)
- MLME-JOINis used by a new device to join the TSCH netw=
ork
- request (dstAddr,securityInformation,numNeighbors,neighbo=
rs[])
- indication (linkHandle,newNodeAddr,securityInformation,nu=
mNeighbors,neighbors[])
- confirm (status)
- MLME-ACTIVATEis used by a node already in the network =
to accept a new device in the network
- request (dstAddr,securityInformation,slotframes[])
- indication (srcAddr,securityInformation)
- confirm (status)
- MLME-DISCONNECTis used to gracefully disconnect from t=
he TSCH network
- request ()
- indication (srcAddress)
- confirm (status)
MCPS for MAC common part sublayer. These primitives are us=
ed to exchange data, once the MAC layer is correctly configured.
- MCPS-DATAis used to transfer data from one node to its=
neighbor
- request (!SrcAddrMode,!DstAddrMode,DstPANId,!DstAddr,msdu=
Length,msdu,msduHandle,!TxOptions, SecurityLevel,!KeyIdMode,!KeySource,!Key=
Index,numberOfAdditionalDstAddr,additionalDstAddr)
- confirm (msduHandle,status,Timestamp,dstAddr)
- indication (!SrcAddrMode,SrcPANId,!SrcAddr,!DstAddrMode,D=
stPANIdDstAddr,msduLength,msdu, mpduLinkQuality,DSN,Timestamp,!SecurityLeve=
l,!KeyIdMode,!KeySource,!KeyIndex)
IEEE802.15.4-2006 devices have 64-bit identifiers which can be compacted=
to 16 bits. Moreover, to differentiate different networks, each network (c=
alled a Personal Area Network, or PAN), has a PAN ID. As a result, a device=
is uniquely identified by the tuple PAN ID, 16/64-bit identifier.
The start of the IEEE802.15.4-2006 header is the 2-byte frame control fi=
eld, depicted below, and which is present in all frames. Its 3-bit Type fie=
ld differentiates between the 4 types of frames: beacon (not used in IEEE80=
2.15.4e), data, acknowledgment and command. Four flags follow: Security Ena=
bled, Frame Pending (not used in IEEE802.15.4e), Acknowledgment Requested a=
nd PAN ID compressed. PAN ID compressed means that the PAN ID is the same f=
or source and destination (which is most often the case), and is hence writ=
ten only once in the packet. Acknowledgment Requested is set to one for all=
frames that needs acknowledgment; in practice all but the advertisement. I=
EEE802.15.4e does not use beacon frames, and uses the same data format as I=
EEE802.15.4-2006.
type (3b) |
security enabled (1b) |
packet pending (1b) |
acknowledgment requested (3b) |
PAN ID compressed (1b) |
reserved (3b) |
Destination Address Mode (2b) |
frame version (2b) |
Source Address Mode (2b) |
IEEE802.15.4e does not change the format of the data frames, but redefin=
es the acknowledgment frame. In order to be backwards-compatible, in realit=
y an acknowledgment in a data packet (i.e. Frame Type in the Frame Control =
Field is set to 0b001). This redefined acknowledgment consists of a DATA he=
ader, with a DHR frame control and a Time correction field. This is describ=
ed on pp.56-57 of IEEEStd802.15.4e-D0.x. Time correction is used for a sender no=
de to synchronize off of the acknowledgment received from the receiver.
802.15.4e uses three types of command frames:
- Advertisement frames are used by nodes in the net=
work to advertise that they exist, so that new nodes can join the network. =
Their structure is described on pp.70-73 of IEEEStd802.15.4e-D0.x.
- A join frame is sent by a new node which has=
heard an advertisement frame and would like to join the network. Its struc=
ture is described on pp.73-75 of IEEEStd802.15.4e-D0.x.
- An activate frame is issued by a node of the=
network after it receives a join command, to inform the new node whether o=
r not it can join. Its structure is described on pp.75-76 of IEEEStd802.15.4e-D0.x<=
/a>.
The 5 resulting types of frames (advertisement, join, active, acknowledg=
ment and data) are presented in OpenPacketStructure.
State
A number of variables need to be stored in RAM when running IEEE802.15.4=
e.
Global variables are:
macDisconnectTime |
time to send out Disconnect frames before disconnecting |
macMinBE |
minimum value of the backoff exponent (BE) |
macMaxBE |
maximum value of the backoff exponent (BE) |
For each slotframe in the macSlotframeTable, the n=
ode needs to store:
slotframeId |
its identifier |
slotframeSize |
the number of timeslots in the slotframe |
activeFlag |
a flag indicating if the slotframe is currently activated |
channelPage |
the channel Page of channels used in this slotframe |
channelMap |
a bitmap of active channels |
For each link in the macLinkTable, the node needs =
to store:
linkId |
the identifier of the link |
linkOption |
a set of flags indicating whether the link is used for transmit, receive=
, or shared transmissions |
linkType |
an enumeration indicating the type of link: Normal, Join, or Advertising=
|
slotframeId |
the identifier of the slotframe to which this link belongs |
nodeAddress |
16-bit address of the node connected to this link |
timeslot |
the timeslot for this link |
channelOffset |
the channel offset for this link |
For each timeslot template in the macTimeslotTemplate table, the node needs to store (the unit for all durations is micr=
o-seconds):
!TimeslotTemplateId |
the identifier of Timeslot Template |
TsCCAOffset |
the time between the beginning of timeslot and start of CCA operation |
TsCCA |
the duration of CCA |
!TsTxOffset |
the time between the beginning of the timeslot and the start of packet t=
ransmission |
!TsRxOffset |
beginning of the timeslot to when the receiver must be listening |
!TsRxAckDelay |
end of packet to when the transmitter must listen for Acknowledgment =
|
!TsTxAckDelay |
end of packet to start of Acknowledgment |
!TsRxWait |
the time to wait for start of packet |
!TsAckWait |
the minimum time to wait for start of an Acknowledgment |
!TsRxTx |
transmit to Receive turnaround (12 symbols) |
!TsMaxAck |
transmission time to send Acknowledgment |
!TsMaxTx |
transmission time to send the maximum length packet (133 bytes) |
Slotframes and Slots
All nodes in the network are synchronized on a slotted time base. A slot=
frame is a collection of timeslots repeating in time. The number of timeslo=
ts in a given slotframe determines how often each timeslot repeats. The tot=
al number of timeslots that has elapsed since the start of the network is c=
alled the Absolute Slot Number (ASN). The pairwise assignment of a directed=
communication between devices in a given timeslot on a given channel offse=
t is a link. Physical channel selection in a link is using:
frequency =3D (ASN + channelOffset)%16
During a timeslot, one node typically sends a frame, and another sends b=
ack an acknowledgement if it successfully receives that frame. If an acknow=
ledgement is not received within the timeout period, retransmission of the =
frame waits until the next assigned transmit timeslot (in any active slotfr=
ame) to that address occurs.
As shown above, the timeslot starts at time T=3D0 from the transmitting =
device's perspective (lower part). The transmitter waits TsTxOffset us, the=
n begins transmitting the packet. The transmitter then waits TsRxAckDelay u=
s, then goes into receive mode to await the acknowledgment. If the acknowle=
dgment does not arrive within TsAckWaitTime us the device may idle the radi=
o and that no acknowledgment will arrive. From the beginning of the slot, t=
he receiver (upper part) waits TsRxOffset us, then switches on its radio. I=
t stays on for a maximum of TsPacketWaitTime us, or until receiving a packe=
t. After receiving a packet, it wait for TsTxAckDelay us, and replies with =
an acknowledgement.
Synchronization
Device-to-device synchronization is necessary to maintain connection wit=
h neighbors in a slotframe-based network. There are two methods for a devic=
e to synchronize to the network:
- Acknowledgment-based synchronization involves the receiver calculating =
the delta between the expected time of frame arrival and its actual arrival=
, and providing that information to the sender node in its acknowledgment. =
This allows a sender node to synchronize to the clock of the receiver.
- Frame-based synchronization involves the receiver calculating the delta=
between the expected time of frame arrival and its actual arrival, and adj=
usting its own clock by the difference. This allows a receiver node to sync=
hronize to the clock of the sender.
Such simple synchronization allows nodes to be synchronized within a few=
tens of us, which is small compared to the guard time allows by the protoc=
ol (typically 1ms). Nodes keep a sense of time by counting the number of os=
cillations of typically a quartz-based oscillator. While it is meant to osc=
illate at 32768Hz, differences in fabrication or temperature cause frequenc=
ies to be slightly off. Typically, two clock will have a relative drift of =
10 parts-per-million, or ppm, which means that after one second, the clock =
will be off by 10us. As a result, node need to resynchronize from time to t=
ime. When there is traffic on the network, nodes which are communicating wi=
ll implicitly resynchronize using the data packets they exchange. If they h=
aven't been communicating for a some time (typically 30s), nodes will excha=
nge empty data packet (called keep-alive messages) simply to resynchronize.=
A node will only synchronize to its time-parent, where the tree formed b=
y the time parents is rooted at the gateway. This forms a synchronization t=
ree, and ensures that all the nodes in the network has a common sense of ti=
me. In practice, a node chooses its time parent to be also its preferred ro=
uting parent.
There are two components of network formation in the TSCH network: adver=
tising and joining. As a part of advertising, network devices that are alre=
ady part of the network send advertisement command frames announcing the pr=
esence of the network. A new device trying to join listens for the Advertis=
ement command frames. A new device joins the network by sending a Join requ=
est command frame to an advertising node. The advertiser activates the devi=
ce by sending an activate frame.
A new network starts when the PAN coordinator starts to advertise (typic=
ally at the request of Network Manager residing in the PAN coordinator). Be=
ing the first node in the network, the PAN coordinator starts at least one =
slotframe, to which other network devices may later synchronize.
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